Isolated nucleic acid molecule encoding human skeletal muscle-specific ubiquitin-conjugating enzyme

Abstract

An isolated nucleic acid molecule encoding human skeletal muscle-specific ubiquitin-conjugating enzyme and comprising a nucleotide sequence coding for the amino acid sequence shown in SEQ ID NO:22 is disclosed. The isolation of this molecule makes it possible to detect its expression in various tissues, analyze its structure and function, and produce the human proteins encoded by this molecule by the technology of genetic engineering. In this way, it is possible to analyze the corresponding expression products, elucidate the pathology of diseases associated with the molecule, for example hereditary diseases and cancer, and diagnose and treat such diseases.

Description

This is a division of application Ser. No. 09/055,699 filed Apr. 7, 1998, now U.S. Pat. No. 6,005,088, which is a division of application Ser. No. 08/820,170 filed Mar. 19, 1997 now U.S. Pat. No. 5,831,058, the disclosures of which are incorporated herein by reference.

TECHNICAL FIELD

The present invention relates to a gene useful as an indicator in the prophylaxis, diagnosis and treatment of diseases in humans. More particularly, it relates to a novel human gene analogous to rat, mouse, yeast, nematode and known human genes, among others, and utilizable, after cDNA analysis thereof, chromosome mapping of cDNA and function analysis of cDNA, in gene diagnosis using said gene and in developing a novel therapeutic method.

BACKGROUND ART

The genetic information of a living thing has been accumulated as sequences (DNA) of four bases, namely A, C, G and T, which exist in cell nuclei. Said genetic information has been preserved for line preservation and ontogeny of each individual living thing.

In the case of human being, the number of said bases is said to be about 3 billion (3×10⁹) and supposedly there are 50 to 100 thousand genes therein. Such genetic information serves to maintain biological phenomena in that regulatory proteins, structural proteins and enzymes are produced via such route that mRNA is transcribed from a gene (DNA) and then trans lated into a protein. Abnormalities in said route from gene to protein translation are considered to be causative of abnormalities of life supporting systems, for example in cell proliferation and differentiation, hence causative of various diseases.

As a result of gene analyses so far made, a number of genes which may be expected to serve as useful materials in drug development, have been found, for example genes for various receptors such as insulin receptor and LDL receptor, genes involved in cell proliferation and differentiation and genes for metabolic enzymes such as proteases, ATPase and superoxide dismutases.

However, analysis of human genes and studies of the functions of the genes analyzed and of the relations between the genes analyzed and various diseases have been just begun and many points remain unknown. Further analysis of novel genes, analysis of the functions thereof, studies of the relations between the genes analyzed and diseases, and studies for applying the genes analyzed to gene diagnosis or for medicinal purposes, for instance, are therefore desired in the relevant art.

If such a novel human gene as mentioned above can be provided, it will be possible to analyze the level of expression thereof in each cell and the structure and function thereof and, through expression product analysis and other studies, it may become possible to reveal the pathogenesis of a disease associated therewith, for example a genopathy or cancer, or diagnose and treat said disease, for instance. It is an object of the present invention to provide such a novel human gene.

For attaining the above object, the present inventors made intensive investigations and obtained the findings mentioned below. Based thereon, the present invention has now been completed.

DISCLOSURE OF INVENTION

Thus, the present inventors synthesized cDNAs based on mRNAs extracted from various tissues, inclusive of human fetal brain, adult blood vessels and placenta, constructed libraries by inserting them into vectors, allowing colonies of Escherichia coli transformed with said libraries to form on agar medium, picked up colonies at random and transferred to 96-well micro plates and registered a large number of human gene-containing E. coli clones.

Each clone thus registered was cultivated on a small size, DNA was extracted and purified, the four base-specifically terminating extension reactions were carried out by the dideoxy chain terminator method using the cDNA extracted as a template, and the base sequence of the gene was determined over about 400 bases from the 5' terminus thereof using an automatic DNA sequencer. Based on the thus-obtained base sequence information, a novel family gene analogous to known genes of animal and plant species such as bacteria, yeasts, nematodes, mice and humans was searched for.

The method of the above-mentioned cDNA analysis is detailedly described in the literature by Fujiwara, one of the present inventors [Fujiwara, Tsutomu, Saibo Kogaku (Cell Engineering), 14, 645-654 (1995)].

Among this group, there are novel receptors, DNA binding domain-containing transcription regulating factors, signal transmission system factors, metabolic enzymes and so forth. Based on the homology of the novel gene of the present invention as obtained by gene analysis to the genes analogous thereto, the product of the gene, hence the function of the protein, can approximately be estimated by analogy. Furthermore, such functions as enzyme activity and binding ability can be investigated by inserting the candidate gene into an expression vector to give a recombinant.

According to the present invention, there are provided a novel human gene characterized by containing a nucleotide sequence coding for an amino acid sequence defined by SEQ ID NO:1, :4, :7, :10, :13, :16, :19, :22, :25, :28, :31, :34, :37 or 40, a human gene characterized by containing the nucleotide sequence defined by SEQ ID NO:2, :5, :8, :11, :14, :17, :20, :23, :26, :29, :32, :35, :38 or :41, respectively coding for the amino acid sequence mentioned above, and a novel human gene characterized by the nucleotide sequence defined by SEQ ID NO:3, :6, :9, :12, :15, :18, :21, :24, :27, :30, :33, :36, :39 or :42.

The symbols used herein for indicating amino acids, peptides, nucleotides, nucleotide sequences and so on are those recommended by IUPAC and IUB or in "Guide-line for drafting specifications etc. including nucleotide sequences or amino acid sequences" (edited by the Japanese Patent Office), or those in conventional use in the relevant field of art.

As specific examples of such gene of the present invention, there may be mentioned genes deducible from the DNA sequences of the clones designated as "GEN-501D08", "GEN-080G01", "GEN-025F07", "GEN-076C09", "GEN-331G07", "GEN-163D09", "GEN-078D05TA13", "GEN-423A12", "GEN-092E10", "GEN-428B12", "GEN-073E07", "GEN-093E05" and "GEN-077A09" shown later herein in Examples 1 to 11. The respective nucleotide sequences are as shown in the sequence listing.

These clones have an open reading frame comprising nucleotides (nucleic acid) respectively coding for the amino acids shown in the sequence listing. Their molecular weights were calculated at the values shown later herein in the respective examples. Hereinafter, these human genes of the present invention are sometimes referred to as the designation used in Examples 1 to 11.

In the following, the human gene of the present invention is described in further detail.

As mentioned above, each human gene of the present invention is analogous to rat, mouse, yeast, nematode and known human genes, among others, and can be utilized in human gene analysis based on the information about the genes analogous thereto and in studying the function of the gene analyzed and the relation between the gene analyzed and a disease. It is possible to use said gene in gene diagnosis of the disease associated therewith and in exploitation studies of said gene for medicinal purposes.

The gene of the present invention is represented in terms of a single-stranded DNA sequence, as shown under SEQ ID NO:2. It is to be noted, however, that the present invention also includes a DNA sequence complementary to such a single-stranded DNA sequence and a component comprising both. The sequence of the gene of the present invention as shown under SEQ ID NO:3n-1 (where n is an integer of 1 to 14) is merely an example of the codon combination encoding the respective amino acid residues. The gene of the present invention is not limited thereto but can of course have a DNA sequence in which the codons are arbitrarily selected and combined for the respective amino acid residues. The codon selection can be made in the conventional manner, for example taking into consideration the codon utilization frequencies in the host to be used [Nucl. Acids Res., 9, 43-74 (1981)].

The gene of the present invention further includes DNA sequences coding for functional equivalents derived from the amino acid sequence mentioned above by partial amino acid or amino acid sequence substitution, deletion or addition. These polypeptides may be produced by spontaneous modification (mutation) or may be obtained by posttranslational modification or by modifying the natural gene (of the present invention) by a technique of genetic engineering, for example by site-specific mutagenesis [Methods in Enzymology, 154, p. 350, 367-382 (1987); ibid., 100, p. 468 (1983); Nucleic Acids Research, 12, p. 9441 (1984); Zoku Seikagaku Jikken Koza (Sequel to Experiments in Biochemistry) 1, "Idensi Kenkyu-ho (Methods in Gene Research) II", edited by the Japan Biochemical Society, p. 105 (1986)] or synthesizing mutant DNAs by a chemical synthetic technique such as the phosphotriester method or phosphoamidite method [J. Am. Chem. Soc., 89, p. 4801 (1967); ibid., 91, p. 3350 (1969); Science, 150, p. 178 (1968); Tetrahedron Lett., 22, p. 1859 (1981); ibid., 24, p. 245 (1983)], or by utilizing the techniques mentioned above in combination.

The protein encoded by the gene of the present invention can be expressed readily and stably by utilizing said gene, for example inserting it into a vector for use with a microorganism and cultivating the microorganism thus transformed.

The protein obtained by utilizing the gene of the present invention can be used in specific antibody production. In this case, the protein producible in large quantities by the genetic engineering technique mentioned above can be used as the component to serve as an antigen. The antibody obtained may be polyclonal or monoclonal and can be advantageously used in the purification, assay, discrimination or identification of the corresponding protein.

The gene of the present invention can be readily produced based on the sequence information thereof disclosed herein by using general genetic engineering techniques [cf. e.g. Molecular Cloning, 2nd Ed., Cold Spring Harbor Laboratory Press (1989); Zoku Seikagaku Jikken Koza, "Idenshi Kenkyu-ho I, II and III", edited by the Japan Biochemical Society (1986)].

This can be achieved, for example, by selecting a desired clone from a human cDNA library (prepared in the conventional manner from appropriate cells of origin in which the gene is expressed) using a probe or antibody specific to the gene of the present invention [e.g. Proc. Natl. Acad. Sci. USA, 78, 6613 (1981); Science, 222, 778 (1983)].

The cells of origin to be used in the above method are, for example, cells or tissues in which the gene in question is expressed, or cultured cells derived therefrom. Separation of total RNA, separation and purification of mRNA, conversion to (synthesis of) cDNA, cloning thereof and so on can be carried out by conventional methods. cDNA libraries are also commercially available and such cDNA libraries, for example various cDNA libraries available from Clontech Lab. Inc. can also be used in the above method.

Screening of the gene of the present invention from these cDNA libraries can be carried out by the conventional method mentioned above. These screening methods include, for example, the method comprising selecting a cDNA clone by immunological screening using an antibody specific to the protein produced by the corresponding cDNA, the technique of plaque or colony hybridization using probes selectively binding to the desired DNA sequence, or a combination of these. As regards the probe to be used here, a DNA sequence chemically synthesized based on the information about the DNA sequence of the present invention is generally used. It is of course possible to use the gene of the present invention or fragments thereof as the proble.

Furthermore, a sense primer and an antisense primer designed based on the information about the partial amino acid sequence of a natural extract isolated and purified from cells or a tissue can be used as probes for screening.

For obtaining the gene of the present invention, the technique of DNA/RNA amplification by the PCR method [Science, 230, 1350-1354 (1984)] can suitably be employed. Particularly when the full-length cDNA can hardly be obtained from the library, the RACE method (rapid amplification of cDNA ends; Jikken Igaku (Experimental Medicine), 12 (6), 35-38 (1994)], in particular the 5'RACE method [Frohman, M. A., et al., Proc. Natl. Acad. Sci. USA, 85, 8998-9002 (1988)] is preferably employed. The primers to be used in such PCR method can be appropriately designed based on the sequence information of the gene of the present invention as disclosed herein and can be synthesized by a conventional method.

The amplified DNA/RNA fragment can be isolated and purified by a conventional method as mentioned above, for example by gel electrophoresis.

The nucleotide sequence of the thus-obtained gene of the present invention or any of various DNA fragments can be determined by a conventional method, for example the dideoxy method [Proc. Natl. Acad. Sci. USA, 74, 5463-5467 (1977)] or the Maxam-Gilbert method [Methods in Enzymology, 65, 499 (1980)]. Such nucleotide sequence determination can be readily performed using a commercially available sequence kit as well.

When the gene of the present invention is used and conventional techniques of recombinant DNA technology [see e.g. Science, 224, p. 1431 (1984); Biochem. Biophys. Res. Comm., 130, p. 692 (1985); Proc. Natl. Acad. Sci. USA, 80, p. 5990 (1983) and the references cited above] are followed, a recombinant protein can be obtained. More detailedly, said protein can be produced by constructing a recombinant DNA enabling the gene of the present invention to be expressed in host cells, introducing it into host cells for transformation thereof and cultivating the resulting transformant.

In that case, the host cells may be eukaryotic or prokaryotic. The eukaryotic cells include vertebrate cells, yeast cells and so on, and the vertebrate cells include, but are not limited to, simian cells named COS cells [Cell, 23, 175-182 (1981)], Chinese hamster ovary cells and a dihydrofolate reductase-deficient cell line derived therefrom [Proc. Natl. Acad. Sci. USA, 77, 4216-4220 (1980)] and the like, which are frequently used.

As regards the expression vector to be used with vertebrate cells, an expression vector having a promoter located upstream of the gene to be expressed, RNA splicing sites, a polyadenylation site and a transcription termination sequence can be generally used. This may further have an origin of replication as necessary. As an example of said expression vector, there may be mentioned pSV2dhfr [Mol. Cell. Biol., 1, 854 (1981)], which has the SV40 early promoter. As for the eukaryotic microorganisms, yeasts are generally and frequently used and, among them, yeasts of the genus Saccharomyces can be used with advantage. As regards the expression vector for use with said yeasts and other eukaryotic microorganisms, pAM82 [Proc. Natl. Acad. Sci. USA, 80, 1-5 (1983)], which has the acid phosphatase gene promoter, for instance, can be used.

Furthermore, a prokaryotic gene fused vector can be preferably used as the expression vector for the gene of the present invention. As specific examples of said vector, there may be mentioned pGEX-2TK and pGEX-4T-2 which have a GST domain (derived from S. japonicum) with a molecular weight of 26,000.

Escherichia coli and Bacillus subtillis are generally and preferably used as prokaryotic hosts. When these are used as hosts in the practice of the present invention, an expression plasmid derived from a plasmid vector capable of replicating in said host organisms and provided in this vector with a promoter and the SD (Shine and Dalgarno) sequence upstream of said gene for enabling the expression of the gene of the present invention and further provided with an initiation codon (e.g. ATG) necessary for the initiation of protein synthesis is preferably used. The Escherichia coli strain K12, among others, is preferably used as the host Escherichia coli, and pBR322 and modified vectors derived therefrom are generally and preferably used as the vector, while various known strains and vectors can also be used. Examples of the promoter which can be used are the tryptophan (trp) promoter, lpp promoter, lac promoter and PL/PR promoter.

The thus-obtained desired recombinant DNA can be introduced into host cells for transformation by using various general methods. The transformant obtained can be cultured by a conventional method and the culture leads to expression and production of the desired protein encoded by the gene of the present invention. The medium to be used in said culture can suitably be selected from among various media in conventional use according to the host cells employed. The host cells can be cultured under conditions suited for the growth thereof.

In the above manner, the desired recombinant protein is expressed and produced and accumulated or secreted within the transformant cells or extracellularly or on the cell membrane.

The recombinant protein can be separated and purified as desired by various separation procedures utilizing the physical, chemical and other properties thereof [cf. e.g. "Seikagaku (Biochemistry) Data Book II", pages 1175-1259, 1st Edition, 1st Printing, published Jun. 23, 1980 by Tokyo Kagaku Dojin; Biochemistry, 25 (25), 8274-8277 (1986); Eur. J. Biochem., 163, 313-321 (1987)]. Specifically, said procedures include, among others, ordinary reconstitution treatment, treatment with a protein precipitating agent (salting out), centrifugation, osmotic shock treatment, sonication, ultrafiltration, various liquid chromatography techniques such as molecular sieve chromatography (gel filtration), adsorption chromatography, ion exchange chromatography, affinity chromatography and high-performance liquid chromatography (HPLC), dialysis and combinations thereof. Among them, affinity chromatography utilizing a column with the desired protein bound thereto is particularly preferred.

Furthermore, on the basis of the sequence information about the gene of the present invention as revealed by the present invention, for example by utilizing part or the whole of said gene, it is possible to detect the expression of the gene of the present invention in various human tissues. This can be performed by a conventional method, for example by RNA amplification by RT-PCR (reverse transcribed-polymerase chain reaction) [Kawasaki, E. S., et al., Amplification of RNA, in PCR Protocol, A guide to methods and applications, Academic Press, Inc., San Diego, 21-27 (1991)], or by northern blotting analysis [Molecular Cloning, Cold Spring Harbor Laboratory (1989)], with good results.

The primers to be used in employing the above-mentioned PCR method are not limited to any particular ones provided that they are specific to the gene of the present invention and enable the gene of the present invention alone to be specifically amplified. They can be designed or selected apropriately based on the gene information provided by the present invention. They can have a partial sequence comprising about 20 to 30 nucleotides according to the established practice. Suitable examples are as shown in Examples 1 to 11.

Thus, the present invention also provides primers and/or probes useful in specifically detecting such novel gene.

By using the novel gene provided by the present invention, it is possible to detect the expression of said gene in various tissues, analyze the structure and function thereof and, further, produce the human protein encoded by said gene in the manner of genetic engineering. These make it possible to analyze the expression product, reveal the pathology of a disease associated therewith, for example a genopathy or cancer, and diagnose and treat the disease.

The following drawings are referred to in the examples.

FIG. 1 shows the result obtained by testing the PI4 kinase activity of NPIK in Example 9.

FIG. 2 shows the effect of Triton X-100 and adenosine on NPIK activity.

EXAMPLES

The following examples illustrate the present invention in further detail.

Example 1

GDP Dissociation Stimulator Gene

(1) Cloning and DNA Sequencing of GDP Dissociation Stimulator Gene

mRNAs extracted from the tissues of human fetal brain, adult blood vessels and placenta were purchased from Clontech and used as starting materials.

cDNA was synthesized from each mRNA and inserted into the vector λZAPII (Stratagene) to thereby construct a cDNA library (Otsuka GEN Research Institute, Otsuka Pharmaceutical Co., Ltd.)

Human gene-containing Escherichia coli colonies were allowed to form on agar medium by the in vivo excision technique [Short, J. M., et al., Nucleic Acids Res., 16, 7583-7600 (1988)]. Colonies were picked up at random and human gene-containing Escherichia coli clones were registered on 96-well micro plates. The clones registered were stored at -80° C.

Each of the clones registered was cultured overnight in 1.5 ml of LB medium, and DNA was extracted and purified using a model PI-100 automatic plasmid extractor (Kurabo). Contaminant Escherichia coli RNA was decomposed and removed by RNase treatment. The DNA was dissolved to a final volume of 30 μl. A 2-μl portion was used for roughly checking the DNA size and quantity using a minigel, 7 μl was used for sequencing reactions and the remaining portion (21 μl) was stored as plasmid DNA at 4°C

This method, after slight changes in the program, enables extraction of the cosmid, which is useful also as a probe for FISH (fluorescence in situ hybridization) shown later in the examples.

Then, the dideoxy terminator method of Sanger et al. [Sanger, F., et al., Proc. Natl. Acad. Sci. USA, 74, 5463-5467 (1977)] using T3, T7 or a synthetic oligonucleotide primer or the cycle sequence method [Carothers, A. M., et al., Bio. Techniques, 7, 494-499 (1989)] comprising the dideoxy chain terminator method plus PCR method was carried out. These are methods of terminating the extension reaction specifically to the four bases using a small amount of plasmid DNA (about 0.1 to 0.5 μg) as a template.

The sequence primers used were FITC (fluorescein isothiocyanate)-labeled ones. Generally, about 25 cycles of reaction were performed using Taq polymerase. The PCR products were separated on a polyacrylamide urea gel and the fluorescence-labeled DNA fragments were submitted to an automatic DNA sequencer (ALF™ DNA Sequencer; Pharmacia) for determining the sequence of about 400 bases from the 5' terminus side of cDNA.

Since the 3' nontranslational region is high in heterogeneity for each gene and therefore suited for discriminating individual genes from one another, sequencing was performed on the 3' side as well depending on the situation.

The vast sum of nucleotide sequence information obtained from the DNA sequencer was transferred to a 64-bit DEC 3400 computer for homology analysis by the computer. In the homology analysis, a data base (GenBank, EMBL) was used for searching according to the UWGCG FASTA program [Pearson, W. R. and Lipman, D. J., Proc. Natl. Acad. Sci. USA, 85, 2444-2448 (1988)].

As a result of arbitrary selection by the above method and of cDNA sequence analysis, a clone designated as GEN-501D08 and having a 0.8 kilobase insert was found to show a high level of homology to the C terminal region of the human Ral guanine nucleotide dissociation stimulator (RalGDS) gene. Since RalGDS is considered to play a certain role in signal transmission pathways, the whole nucleotide sequence of the cDNA insert portion providing the human homolog was further determined.

Low-molecular GTPases play an important role in transmitting signals for a number of cell functions including cell proliferation, differentiation and transformation [Bourne, H. R. et al., Nature, 348, 125-132 (1990); Bourne et al., Nature, 349, 117-127 (1991)].

It is well known that, among them, those proteins encoded by the ras gene family function as molecular switches or, in other words, the functions of the ras gene family are regulated by different conditions of binding proteins such as biologically inactive GDP-binding proteins or active GDP-binding proteins, and that these two conditions are induced by GTPase activating proteins (GAPs) or GDS. The former enzymes induce GDP binding by stimulating the hydrolysis of bound GTP and the latter enzyme induces the regular GTP binding by releasing bound GDP [Bogusuki, M. S. and McCormick, F., Nature, 366, 643-654 (1993)].

RalGDS was first discovered as a member of the ras gene family lacking in transforming activity and as a GDP dissociation stimulator specific to RAS [Chardin, P. and Tavitian, A., EMBO J., 5, 2203-2208 (1986); Albright, C. F., et al., EMBO J., 12, 339-347 (1993)].

In addition to Ral, RalGDS was found to function, through interaction with these proteins, as an effector molecule for N-ras, H-ras, K-ras and Rap [Spaargaren, M. and Bischoff, J. R., Proc. Natl. Acad. Sci. USA, 91, 12609-12613 (1994)].

The nucleotide sequence of the cDNA clone designated as GEN-501D08 is shown under SEQ ID NO:3, the nucleotide sequence of the coding region of said clone under SEQ ID NO:2, and the amino acid sequence encoded by said nucleotide sequence under SEQ ID NO:1.

This cDNA comprises 842 nucleotides, including an open reading frame comprising 366 nucleotides and coding for 122 amino acids. The translation initiation codon was found to be located at the 28th nucleotide residue.

Comparison between the RalGDS protein known among conventional databases and the amino acid sequence deduced from said cDNA revealed that the protein encoded by this cDNA is homologous to the C terminal domain of human RalGDS. The amino acid sequence encoded by this novel gene was found to be 39.5% identical with the C terminal domain of RalGDS which is thought to be necessary for binding to ras.

Therefore, it is presumable, as mentioned above, that this gene product might interact with the ras family proteins or have influence on the ras-mediated signal transduction pathways. However, this novel gene is lacking in the region coding for the GDS activity domain and the corresponding protein seems to be different in function from the GDS protein. This gene was named human RalGDS by the present inventors.

(2) Northern Blot Analysis

The expression of the RalGDS protein mRNA in normal human tissues was evaluated by Northern blotting using, as a probe, the human cDNA clone labeled by the random oligonucleotide priming method.

The Northern blot analysis was carried out with a human MTN blot (Human Multiple Tissue Northern blot; Clontech, Palo Alto, Calif., USA) according to the manufacturer's protocol.

Thus, the PCR amplification product from the above GEN-501D08 clone was labeled with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer-Mannheim) for use as a probe.

For blotting, hybridization was performed overnight at 42°C in a solution comprising 50% formamide/5×SSC/50×Denhardt's solution/0.1% SDS (containing 100 μg/ml denatured salmon sperm DNA). After washing with two portions of 2×SSC/0.01% SDS at room temperature, the membrane filter was further washed three times with 0.1×SSC/0.05% SDS at 50°C for 40 minutes. An X-ray film (Kodak) was exposed to the filter at -70°C for 18 hours.

As a result, it was revealed that a 900-bp transcript had been expressed in all the human tissues tested. In addition, a 3.2-kb transcript was observed specifically in the heart and skeletal muscle. The expression of these transcripts differing in size may be due either to alternative splicing or to cross hybridization with homologous genes.

(3) Cosmid Clone and Chromosome Localization by FISH

FISH was performed by screening a library of human chromosomes cloned in the cosmid vector pWE15 using, as a probe, the 0.8-kb insert of the cDNA clone [Sambrook, J., et al., Molecular Cloning, 2nd Ed., pp. 3.1-3.58, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York (1989)].

FISH for chromosome assignment was carried out by the method of Inazawa et al. which comprises G-banding pattern comparison for confirmation [Inazawa, J., et al., Genomics, 17, 153-162 (1993)].

For use as a probe, the cosmid DNA (0.5 μg) obtained from chromosome screening and corresponding to GEN-501D08 was labeled with biotin-16-dUTP by nick translation.

To eliminate the background noise due to repetitive sequences, 0.5 μl of sonicated human placenta DNA (10 mg/ml) was added to 9.5 μl of the probe solution. The mixture was denatured at 80°C for 5 minutes and admixed with an equal volume of 4×SSC containing 20% dextransulfate. Then, a denatured slide was sown with the hybridization mixture and, after covering with paraffin, incubated in a wet chamber at 37°C for 16 to 18 hours. After washing with 50% formamide/2×SSC at 37°C for 15 minutes, the slide was washed with 2×SSC for 15 minutes and further with 1×SSC for 15 minutes.

The slide was then incubated in 4×SSC supplemented with "1% Block Ace" (trademark; Dainippon Pharmaceutical) containing avidin-FITC (5 μg/ml) at 37°C for 40 minutes. Then, the slide was washed with 4×SSC for 10 minutes and with 4×SSC containing 0.05% Triton X-100 for 10 minutes and immersed in an antifading PPD solution [prepared by adjusting 100 mg of PPD (Wako Catalog No. 164-015321) and 10 ml of PBS(-) (pH 7.4) to pH 8.0 with 0.5 M Na₂ CO₃ /0.5 M NaHCO₃ (9:1, v/v) buffer (pH 9.0) and adding glycerol to make a total volume of 100 ml] containing 1% DABCO [1% DABCO (Sigma) in PBS(-):glycerol 1:9 (v:v)], followed by counter staining with DAPI (4,6-diamino-2-phenylindole; Sigma).

With more than 100 tested cells in the metaphase, a specific hybridization signal was observed on the chromosome band at 6p21.3, without any signal on other chromosomes. It was thus confirmed that the RalGDS gene is located on the chromosome 6p21.3.

By using the novel human RalGDS-associated gene of the present invention as obtained in this example, the expression of said gene in various tissues can be detected and the human RalGDS protein can be produced in the manner of genetic engineering. These are expected to enable studies on the roles of the expression product protein and ras-mediated signals in transduction pathways as well as pathological investigations of diseases in which these are involved, for example cancer, and the diagnosis and treatment of such diseases. Furthermore, it becomes possible to study the development and progress of diseases involving the same chromosomal translocation of the RalGDS protein gene of the present invention, for example tonic spondylitis, atrial septal defect, pigmentary retinopathy, aphasia and the like.

Example 2

Cytoskeleton-associated Protein 2 Gene (CKAP2 gene)

(1) Cytoskeleton-associated Protein 2 Gene Cloning and DNA Sequencing

cDNA clones were arbitrarily chosen from a human fetal brain cDNA library in the same manner as in Example 1 were subjected to sequence analysis and, as a result, a clone having a base sequence containing the CAP-glycine domain of the human cytoskeleton-associated protein (CAP) gene and highly homologous to several CAP family genes was found and named GEN-080G01.

Meanwhile, the cytoskeleton occurs in the cytoplasm and just inside the cell membrane of eukaryotic cells and is a network structure comprising complicatedly entangled filaments. Said cytoskeleton is constituted of microtubules composed of tubulin, microfilaments composed of actin, intermediate filaments composed of desmin and vimentin, and so on. The cytoskeleton not only acts as supportive cellular elements but also isokinetically functions to induce morphological changes of cells by polymerization and depolymerization in the fibrous system. The cytoskeleton binds to intracellular organelles, cell membrane receptors and ion channels and thus plays an important role in intracellular movement and locality maintenance thereof and, in addition, is said to have functions in activity regulation and mutual information transmission. Thus it supposedly occupies a very important position in physiological activity regulation of the whole cell. In particular, the relation between canceration of cells and qualitative changes of the cytoskeleton attracts attention since cancer cells differ in morphology and recognition response from normal cells.

The activity of this cytoskeleton is modulated by a number of cytoskeleton-associated proteins (CAPs). One group of CAPs is characterized by a glycine motif highly conserved and supposedly contributing to association with microtubules [CAP-GLY domain; Riehemann, K. and Song, C., Trends Biochem. Sci., 18, 82-83 (1993)].

Among the members of this group of CAPs, there are CLIP-170, 150 kDa DAP (dynein-associated protein, or dynactin), D. melanogaster GLUED, S. cerevisiae BIK1, restin [Bilbe, G., et al., EMBO J., 11, 2103-2113 (1992)]; Hilliker, C., et al., Cytogenet. Cell Genet., 65, 172-176 (1994)] and C. elegans 13.5 kDa protein [Wilson, R., et al., Nature, 368, 32-38 (1994)]. Except for the last two proteins, direct or indirect evidences have suggested that they could interact with microtublues.

The above-mentioned CLIP-170 is essential for the in vitro binding of endocytic vesicles to microtubules and colocalizes with endocytic organelles [Rickard, J. E. and Kreis, T. E., J. Biol. Chem., 18, 82-83 (1990); Pierre, P., et al., Cell, 70, 887-900 (1992)].

The above-mentioned dynactin is one of the factors constituting the cytoplasmic dynein motor, which functions in retrograde vesicle transport [Schroer, T. A. and Sheetz, M. P., J. Cell Biol., 115, 1309-1318 (1991)] or probably in the movement of chromosomes during mitosis [Pfarr, C. M., et al., Nature, 345, 263-265 (1990); Steuer, E. R., et al., Nature, 345, 266-268 (1990); Wordeman, L., et al., J. Cell Biol., 114, 285-294 (1991)].

GLUED, the Drosophila homolog of mammalian dynactin, is essential for the viability of almost all cells and for the proper organization of some neurons [Swaroop, A., et al., Proc. Natl. Acad. Sci. USA, 84, 6501-6505 (1987); Holzbaur, E. L. P., et al., Nature, 351, 579-583 (1991)].

BIK1 interacts with microtubules and plays an important role in spindle formation during mitosis in yeasts [Trueheart, J., et al., Mol. Cell. Biol., 7, 2316-2326 (1987); Berlin, V., et al., J. Cell Biol., 111, 2573-2586 (1990)].

At present, these genes are classified under the term CAP family (CAPs).

As a result of database searching, the above-mentioned cDNA clone of 463-bp (excluding the poly-A signal) showed significant homology in nucleotide sequence with the restin and CLIP-170 encoding genes. However, said clone was lacking in the 5' region as compared with the restin gene and, therefore, the technique of 5' RACE [Frohman, M. A., et al., Proc. Natl. Acad. Sci. USA, 85, 8998-9002 (1988)] was used to isolate this missing segment.

(2) 5' RACE (5' rapid amplification of cDNA ends)

A cDNA clone containing the 5' portion of the gene of the present invention was isolated for analysis by the 5' RACE technique using a commercial kit (5'-Rapid AmpliFinder RACE kit, Clontech) according to the manufacturer's protocol with minor modifications, as follows.

The gene-specific primer P1 and primer P2 used here were synthesized by the conventional method and their nucleotide sequences are as shown below in Table 1. The anchor primer used was the one attached to the commercial kit.

TABLE 1
__________________________________________________________________________
Primer
Nucleotide sequence
__________________________________________________________________________
Primer P1
5'-ACACCAATCCAGTAGCCAGGCTTG-3'
(Seq Id No:43)
- Primer P2    5'-CACTCGAGAATCTGTGAGACCTACATACATGACG-3' (Seq Id
__________________________________________________________________________
No:44)

cDNA was obtained by reverse transcription of 0.1 μg of human fetal brain poly(A)+RNA by the random hexamer technique using reverse transcriptase (Superscript™ II, Life Technologies) and the cDNA was amplified by the first PCR using the P1 primer and anchor primer according to Watanabe et al. [Watanabe, T., et al., Cell Genet., in press).

Thus, to 0.1 μg of the above-mentioned cDNA were added 2.5 mM dNTP/1×Taq buffer (Takara Shuzo)/0.2 μM P1 primer, 0.2 μM adaptor primer/0.25 unit ExTaq enzyme (Takara Shuzo) to make a total volume of 50 μl, followed by addition of the anchor primer. The mixture was subjected to PCR. Thus, 35 cycles of amplification were performed under the conditions: 94°C for 45 seconds, 60°C for 45 seconds, and 72°C for 2 minutes. Finally, the mixture was heated at 72°C for 5 minutes.

Then, 1 μl of the 50-μl first PCR product was subjected to amplification by the second PCR using the specific nested P2 primer and anchor primer. The second PCR product was analyzed by 1.5% agarose gel electrophoresis.

Upon agarose gel electrophoresis, a single band, about 650 nucleotides in size, was detected. The product from this band was inserted into a vector (pT7Blue(R)T-Vector, Novagen) and a plurality of clones with an insert having an appropriate size were selected.

Six of the 5' RACE clones obtained from the PCR product had the same sequence but had different lengths. By sequencing two overlapping cDNA clones, GEN-080G01 and GEN-080G0149, the protein-encoding sequence and 5' and 3' flanking sequences, 1015 nucleotides in total length, were determined. Said gene was named cytoskeleton-associated protein 2 gene (CKAP2 gene).

The nucleotide sequence obtained from the above-mentioned two overlapping cDNA clones GEN-080G01 and GEN-080G0149 is shown under SEQ ID NO:6, the nucleotide sequence of the coding region of said clone under SEQ ID NO:5, and the amino acid sequence encoded by said nucleotide sequence under SEQ ID NO:4.

As shown under SEQ ID N0:6, the CKAP2 gene had a relatively GC-rich 5' noncoding region, with incomplete triplet repeats, (CAG)4(CGG)4(CTG)(CGG), occurring at nucleotides 40-69.

ATG located at nucleotides 274-276 is the presumable start codon. A stop codon (TGA) was situated at nucleotides 853-855. A polyadenylation signal (ATTAAA) was followed by 16 nucleotides before the poly(A) start. The estimated open reading frame comprises 579 nucleotides coding for 193 amino acid residues with a calculated molecular weight of 21,800 daltons.

The coding region was further amplified by RT-PCR, to eliminate the possibility of the synthetic sequence obtained being a cDNA chimera.

(2) Similarity of CKAP2 to other CAPs

While sequencing of CKAP2 revealed homology with the sequences of restin and CLIP-170, the homologous region was limited to a short sequence corresponding to the CAP-GLY domain. On the amino acid level, the deduced CKAP2 was highly homologous to five other CAPs in this domain.

CKAP2 was lacking in such other motif characteristics of some CAPs as the alpha helical rod and zinc finger motif. The alpha helical rod is thought to contribute to dimerization and to increase the microtubule binding capacity [Pierre, P., et al., Cell, 70, 887-900 (1992)]. The lack of the alpha helical domain might mean that CKAP2 be incapable of homo or hetero dimer formation.

Paralleling of the CAP-GLY domains of these proteins revealed that other conserved residues other than glycine residues are also found in CKAP2. CAPs having a CAP-GLY domain are thought to be associated with the activities of cellular organelles and the interactions thereof with microtubules. Since it contains a CAP-GLY domain, as mentioned above, CKAP2 is placed in the family of CAPs.

Studies with mutants of Glued have revealed that the Glued product plays an important role in almost all cells [Swaroop, A., et al., Proc. Natl. Acad. Sci. USA, 84, 6501-6505 (1987)] and that it has other neuron-specific functions in neuronal cells [Meyerowitz, E. M. and Kankel, D. R., Dev. Biol., 62, 112-142 (1978)]. These microtubule-associated proteins are thought to function in vesicle transport and mitosis. Because of the importance of the vesicle transport system in neuronal cells, defects in these components might lead to aberrant neuronal systems.

In view of the above, CKAP2 might be involved in specific neuronal functions as well as in fundamental cellular functions.

(3) Northern Blot Analysis

The expression of human CKAP2 mRNA in normal human tissues was examined by Northern blotting in the same manner as in Example 1 (2) using the GEN-080G01 clone (corresponding to nucleotides 553-1015) as a probe.

As a result, in all the eight tissues tested, namely human heart, brain, placenta, lung, liver, skeletal muscle, kidney and pancreas, a 1.0 kb transcript agreeing in size with the CKAP2 cDNA was detected. Said 1.0 kb transcript was expressed at significantly higher levels in heart and brain than in the other tissues examined. Two weak bands, 3.4 kb and 4.6 kb, were also detected in all the tissues examined.

According to the Northern blot analysis, the 3.4 kb and 4.6 kb transcripts might possibly be derived from the same gene coding for the 1.0 kb CKAP2 by alternative splicing or transcribed from other related genes. These characteristics of the transcripts may indicate that CKAP2 might also code for a protein having a CAP-GLY domain as well as an alpha helix.

(4) Cosmid Cloning and Chromosomal Localization by Direct R-banding FISH

Two cosmids corresponding to the CKAP2 cDNA were obtained. These two cosmid clones were subjected to direct R-banding FISH in the same manner as in Example 1 (3) for chromosomal locus mapping of CKAP2.

For suppressing the background due to repetitive sequences, a 20-fold excessive amount of human Cot-I DNA (BRL) was added as described by Lichter et al. [Lichter, P., et al., Proc. Natl. Acad. Sci. USA, 87, 6634-6638 (1990)]. A Provia 100 film (Fuji ISO 100; Fuji Photo Film) was used for photomicrography.

As a result, CKAP2 was mapped on chromosome bands 19q13.11-q13.12.

Two autosomal dominant neurological diseases have been localized to this region by linkage analysis: CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy) between the DNA markers D19S221 and D19S222, and FHM (familial hemiplegic migraine) between D19S215 and D19S216. These two diseases may be allelic disorders in which the same gene is involved [Tournier-Lasserve, E., et al., Nature Genet., 3, 256-259 (1993); Joutel, A., et al., Nature Genet., 5, 40-45 (1993)].

Although no evidence is available to support CKAP2 as a candidate gene for FHM or CADASIL, it is conceivable that its mutation might lead to some or other neurological disease.

By using the novel human CKAP2 gene of the present invention as obtained in this example, it is possible to detect the expression of said gene in various tissues or produce the human CKAP2 gene in the manner of genetic engineering. Through these, it becomes possible to analyze the functions of the human CKAP2 system or human CKAP2, which is involved in diverse activities essential to cells, as mentioned above, to diagnose various neurological diseases in which said system or gene is involved, for example familial migraine, and to screen out and evaluate a therapeutic or prophylactic drug therefor.

Example 3

OTK27 Gene

(1) OTK27 Gene Cloning and DNA Sequencing

As a result of sequence analysis of cDNA clones arbitraily selected from a human fetal brain cDNA library in the same manner as in Example 1 (1) and database searching, a cDNA clone, GEN-025F07, coding for a protein highly homologous to NHP2, a yeast nucleoprotein [Saccharomyces cerevisiae; Kolodrubetz, D. and Burgum, A., YEAST, 7, 79-90 (1991)], was found and named OTK27.

Nucleoproteins are fundamental cellular constituents of chromosomes, ribosomes and so forth and are thought to play an essential role in cell multiplication and viability. The yeast nucleoprotein NHP2, a high-mobility group (HMG)-like protein, like HMG, has reportedly a function essential for cell viability [Kolodrubetz, D. and Burgum, A., YEAST, 7, 79-90 (1991)].

The novel human gene, OTK27 gene, of the present invention, which is highly homologous to the above-mentioned yeast NHP2 gene, is supposed to be similar in function.

The nucleotide sequence of said GEN-025F07 clone was found to comprise 1493 nucleotides, as shown under SEQ ID NO:9, and contain an open reading frame comprising 384 nucleotides, as shown under SEQ ID NO:8, coding for an amino acid sequence comprising 128 amino acid residues, as shown under SEQ ID NO:7. The initiation codon was located at nucleotides 95-97 of the sequence shown under SEQ ID NO:9, and the termination codon at nucleotides 479-481.

At the amino acid level, the OTK27 protein was highly homologous (38%) to NHP2. It was 83% identical with the protein deduced from the cDNA from Arabidopsis thaliana; Newman, T., unpublished; GENEMBL Accession No. T14197).

(2) Northern Blot Analysis

For examining the expression of human OTK27 mRNA in normal human tissues, the insert in the OTK27 cDNA was amplified by PCR, the PCR product was purified and labeled with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer Mannheim), and Northern blotting was performed using the labeled product as a probe in the same manner as in Example 1 (2).

As a result of the Northern blot analysis, two bands corresponding to possible transcripts from this gene were detected at approximately 1.6 kb and 0.7 kb. Both sizes of transcript were expressed in all normal adult tissues examined. However, the expression of the 0.7 kb transcript was significantly reduced in brain and was of higher levels in heart, skeletal muscle and testicle than in other tissues examined.

For further examination of these two transcripts, eleven cDNA clones were isolated from a testis cDNA library and their DNA sequences were determined in the same manner as in Example 1 (1).

As a result, in six clones, the sequences were found to be in agreement with that of the 0.7 kb transcript, with a poly(A) sequence starting at around the 600th nucleotide, namely at the 598th nucleotide in two of the six clones, at the 606th nucleotide in three clones, and at the 613th nucleotide in one clone.

In these six clones, the "TATAAA" sequence was recognized at nucleotides 583-588 as a probable poly(A) signal. The upstream poly(A) signal "TATAAA" of this gene was recognized as little influencing in brain and more effective in the three tissues mentioned above than in other tissues. The possibility was considered that the stability of each transcript vary from tissue to tissue.

Results of zoo blot analysis indicated that this gene is well conserved also in other vertebrates. Since this gene is expressed ubiquitously in normal adult tissues and conserved among a wide range of species, the gene product is likely to play an important physiological role. The evidence that yeasts lacking in NHP2 are nonviable suggests that the human homolog may also be essential to cell viability.

(3) Chromosomal Localization of OTK27 by Direct R-banding FISH

One cosmid clone corresponding to the cDNA OTK27 was isolated from a total human genomic cosmid library (5-genome equivalent) using the OTK27 cDNA insert as a probe and subjected to FISH in the same manner as in Example 1 (3) for chromosomal localization of OTK27.

As a result, two distinct spots were observed on the chromosome band 12q24.3.

The OTK27 gene of the present invention can be used in causing expression thereof and detecting the OTK27 protein, a human nucleoprotein, and thus can be utilized in the diagnosis and pathologic studies of various diseases in which said protein is involved and, because of its involvement in cell proliferation and differentiation, in screening out and evaluating therapeutic and preventive drugs for cancer.

Example 4

OTK18 Gene

(1) OTK18 Gene Cloning and DNA Sequencing

Zinc finger proteins are defined as constituing a large family of transcription-regulating proteins in eukaryotes and carry evolutionally conserved structural motifs [Kadonaga, J. T., et al., Cell, 51, 1079-1090 (1987); Klung, A. and Rhodes, D., Trends Biol. Sci., 12, 464-469 (1987); Evans, R. M. and Hollenberg, S. M., Cell, 52, 1-3 (1988)].

The zinc finger, a loop-like motif formed by the interaction between the zinc ion and two residues, cysteine and histidine residues, is involved in the sequence-specific binding of a protein to RNA or DNA. The zinc finger motif was first identified within the amino acid sequence of the Xenopus transcription factor IIIA [Miller, J., et al., EMBO J., 4, 1609-1614 (1986)].

The C₂ H₂ finger motif is in general tandemly repeated and contains an evolutionally conserved intervening sequence of 7 or 8 amino acids. This intervening stretch was first identified in the Kruppel segmentation gene of Drosophila [Rosenberg, U. B., et al., Nature, 319, 336-339 (1986)]. Since then, hundreds of C₂ H₂ zinc finger protein-encoding genes have been found in vertebrate genomes.

As a result of sequence analysis of cDNA clones arbitrarily selected from a human fetal brain cDNA library in the same manner as in Example 1 (1) and database searching, several zinc finger structure-containing clones were identified and, further, a clone having a zinc finger structure of the Kruppel type was found.

Since this clone lacked the 5' portion of the transcript, plaque hybridization was performed with a fetal brain cDNA library using, as a probe, an approximately 1.8 kb insert in the cDNA clone, whereby three clones were isolated. The nucleotide sequences of these were determined in the same manner as in Example 1 (1).

Among the three clones, the one having the largest insert spans 3,754 nucleotides including an open reading frame of 2,133 nucleotides coding for 711 amino acids. It was found that said clone contains a novel human gene coding for a peptide highly homologous in the zinc finger domain to those encoded by human ZNF41 and the Drosophila Kruppel gene. This gene was named OTK18 gene (derived from the clone GEN-076C09).

The nucleotide sequence of the cDNA clone of the OTK18 gene is shown under SEQ ID NO:12, the coding region-containing nucleotide sequence under SEQ ID NO:11, and the predicted amino acid sequence encoded by said OTK18 gene under SEQ ID NO:10.

It was found that the amino acid sequence of OTK18 as deduced from SEQ ID NO:12 contains 13 finger motifs on its carboxy side.

(2) Comparison with other Zinc Finger Motif-containing Genes

Comparison among OTK18, human ZNF41 and the Drosophila Kruppel gene revealed that each finger motif is for the most part conserved in the consensus sequence CXECGKAFXQKSXLX₂ HQRXH (SEQ ID NO:45).

Comparison of the consensus sequence of the zinc finger motifs of OTK18 with those of human ZNF41 and the Drosophila Kruppel gene revealed that the Kruppel type motif is well conserved in the OTK18-encoded protein. However, the sequence similarities were limited to zinc finger domains and no significant homologies were found with regard to other regions.

The zinc finger domain interacts specifically with the target DNA, recognizing an about 5 bp sequence to thereby bind to the DNA helix [Rhodes, D. and Klug, A., Cell, 46, 123-132 (1986)].

Based on the idea that, in view of the above, the multiple module (tandem repetitions of zinc finger) can interact with long stretches of DNA, it is presumable that the target DNA of this gene product containing 13 repeated zinc finger units would be a DNA fragment with a length of approximately 65 bp.

(3) Northern Blot Analysis

Northern blot analysis was performed as described in Example 1 (2) for checking normal human tissues for expression of the human OTK18 mRNA therein by amplifying the insert of the OTK18 cDNA by PCR, purifying the PCR product, labeling the same with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer Mannheim) and using an MTN blot with the labeled product as a probe.

The results of Northern blot analysis revealed that the transcript of OTK18 is approximately 4.3 kb long and is expressed ubiquitously in various normal adult tissues. However, the expression level in the liver and in peripheral blood lymphocytes seemed to be lower than in other organs tested.

(4) Cosmid Cloning and Chromosomal Localization by Direct R-banding FISH

Chromosomal localization of OTK18 was carried out as described in Example 1 (3).

As a result, complete twin spots were identified with 8 samples while 23 samples showed an incomplete signal or twin spots on either or both homologs. All signals appeared at the q13.4 band of chromosome 19. No twin spots were observed on any other chromosomes.

The results of FISH thus revealed that this gene is localized on chromosomal band 19q13.4. This region is known to contain many DNA segments that hybridize with oligonucleotides corresponding to zinc finger domains [Hoovers, J. M. N., et al., Genomics, 12, 254-263 (1992)]. In addition, at least one other gene coding for a zinc finger domain has been identified in this region [Marine, J.-C., et al., Genomics, 21, 285-286 (1994)].

Hence, the chromosome 19q13 is presumably a site of grouping of multiple genes coding for transcription-regulating proteins.

When the novel human OTK18 gene provided by this example is used, it becomes possible to detect expression of said gene in various tissues and produce the human OTK18 protein in the manner of genetic engineering. Through these, it is possible to analyze the functions of the human transcription regulating protein gene system or human transcription regulating proteins, which are deeply involved in diverse activities fundamental to cells, as mentioned above, to diagnose various diseases with which said gene is associated, for example malformation or cancer resulting from a developmental or differentiation anomaly, and mental or nervous disorder resulting from a developmental anomaly in the nervous system, and further to screen out and evaluate therapeutic or prophylactic drugs for these diseases.

Example 5

Genes Encoding Human 26S Proteasome Constituent P42 Protein and P27 Protein

(1) Cloning and DNA Sequencing of Genes Respectively Encoding Human 26S Proteasome Constituent P42 Protein and P27 Protein

Proteasome, which is a multifunctional protease, is an enzyme occurring widely in eukaryotes from yeasts to humans and decomposing ubiquitin-binding proteins in cells in an energy-dependent manner. Structurally, said proteasome is constituted of 20S proteasome composed of various constituents with a molecular weight of 21 to 31 kilodaltons and a group of PA700 regulatory proteins composed of various constituents with a molecular weight of 30 to 112 kilodaltons and showing a sedimentation coefficient of 22S and, as a whole, occurs as a macromolecule with a molecular weight of about 2 million daltons and a sedimentation coefficient of 26S [Rechsteiner, M., et al., J. Biol. Chem., 268, 6065-6068 (1993); Yoshimura, T., et al., J. Struct. Biol., 111, 200-211 (1993); Tanaka, K., et al., New Biologist, 4, 173-187 (1992)].

Despite structural and mechanical analyses thereof, the whole picture of proteasome is not yet fully clear. However, according to studies using yeasts and mice in the main, it reportedly has the functions mentioned below and its functions are becoming more and more elucidated.

The mechanism of energy-dependent proteolysis in cells starts with selection of proteins by ubiquitin binding. It is not 20S proteasome but 26S proteasome that has ubiquitin-conjugated protein decomposing activity which is ATP-dependent [Chu-Ping et al., J. Biol. Chem., 269, 3539-3547 (1994)]. Hence, human 26S proteasome is considered to be useful in elucidating the mechanism of energy-dependent proteolysis.

Factors involved in the cell cycle regulation are generally short in half-life and in many cases they are subject to strict quantitative control. In fact, it has been made clear that the oncogene products Mos, Myc, Fos and so forth can be decomposed by 26S proteasome in an energy- and ubiquitin-dependent manner [Ishida, N., et al., FEBS Lett., 324, 345-348 (1993); Hershko, A. and Ciechanover, A., Annu. Rev. Biochem., 61, 761-807 (1992)] and the importance of proteasone in cell cycle control is being recognized.

Its importance in the immune system has also been pointed out. It is suggested that proteasome is positively involved in class I major histocompatible complex antigen presentation [Michalek, M. T., et al., Nature, 363, 552-554 (1993)] and it is further suggested that proteasome may be involved in Alzheimer disease, since the phenomena of abnormal accumulation of ubiquitin-conjugated proteins in the brain of patients with Alzheimer disease [Kitaguchi, N., et al., Nature, 361, 530-532 (1988)]. Because of its diverse functions such as those mentioned above, proteasome attracts attention from the viewpoint of its utility in the diagnosis and treatment of various diseases.

A main function of 26S proteasome is ubiquitin-conjugated protein decomposing activity. In particular, it is known that cell cycle-related gene products such as oncogene products and cyclins, typically c-Myc, are degraded via ubiquitin-dependent pathways. It has also been observed that the proteasome gene is expressed abnormally in liver cancer cells, renal cancer cells, leukemia cells and the like as compared with normal cells [Kanayama, H., et al., Cancer Res., 51, 6677-6685 (1991)] and that proteasome is abnormally accumulated in tumor cell nuclei. Hence, constituents of proteasome are expected to be useful in studying the mechanism of such canceration and in the diagnosis or treatment of cancer.

Also, it is known that the expression of proteasome is induced by interferon γ and so on and is deeply involved in antigen presentation in cells [Aki, M., et al., J. Biochem., 115, 257-269 (1994)]. Hence, constituents of human proteasome are expected to be useful in studying the mechanism of antigen presentation in the immune system and in developing immunoregulating drugs.

Furthermore, proteasome is considered to be deeply associated with ubiquitin abnormally accumulated in the brain of patients with Alzheimer disease. Hence, it is suggested that constituents of human proteasome should be useful in studying the cause of Alzheimer disease and in the treatment of said disease.

In addition to the utilization of expectedly multifunctional proteasome as such in the above manner, it is probably possible to produce antibodies using constituents of proteasome as antigens and use such antibodies in diagnosing various diseases by immunoassay. Its utility in this field of diagnosis is thus also a focus of interest.

Meanwhile, a protein having the characteristics of human 26S proteasome is disclosed, for example in Japanese Unexamined Patent Publication No. 292964/1993 and rat proteasome constituents are disclosed in Japanese Unexamined Patent Publication Nos. 268957/1993 and 317059/1993. However, no human 26S proteasome constituents are known. Therefore, the present inventors made a further search for human 26S proteasome constituents and successfully obtained two novel human 26S proteasome constituents, namely human 26S proteasome constituent P42 protein and human S26 proteasome constituent P27 protein, and performed cloning and DNA sequencing of the corresponding genes in the following manner.

(1) Purification of Human 26S Proteasome Constituents P42 Protein and P27 Protein

Human proteasome was purified using about 100 g of fresh human kidney and following the method of purifying human proteasome as described in Japanese Unexamined Patent Publication No. 292964/1993, namely by column chromatography using BioGel A-1.5 m (5×90 cm, Bio-Rad), hydroxyapatite (1.5×15 cm, Bio-Rad) and Q-Sepharose (1.5×15 cm, Pharmacia) and glycerol density gradient centrifugation.

The thus-obtained human proteasome was subjected to reversed phase high performance liquid chromatography (HPLC) using a Hitachi model L6200 HPLC system. A Shodex RS Pak D4-613 (0.6×15 cm, Showa Denko) was used and gradient elution was performed with the following two solutions:

First solution: 0.06% trifluoroacetic acid;

Second solution: 0.05% trifluoroacetic acid, 70% acetonitrile.

An aliquot of each eluate fraction was subjected to 8.5% SDS-polyacrylamide electrophoresis under conditions of reduction with dithiothreitol. The P42 protein and P27 protein thus detected were isolated and purified.

The purified P42 and P27 proteins were respectively digested with 1 μg of trypsin in 0.1 M Tris buffer (pH 7.8) containing 2 M urea at 37° C. for 8 hours and the partial peptide fragments obtained were separated by reversed phase HPLC and their sequences were determined by Edman degradation. The results obtained are as shown below in Table 2.

TABLE 2
______________________________________
Partial
protein Amino acid sequence
______________________________________
P42  (1)    VLNISLW               (Seq Id No: 46)
(2) TLMELLNQMDGFDTLHR (Seq Id No: 47)
(3) AVSDFVVSEYXMXA (Seq Id No: 48)
(4) EVDPLVYNX (Seq Id No: 49)
(5) HGEIDYEAIVK (Seq Id No: 50)
(6) LSXGFNGADLRNVXTEAGMFAIXAD (Seq Id No: 51)
(7) MIMATNRPDTLDPALLRPGXL (Seq Id No: 52)
(8) IHIDLPNEQARLDILK (Seq Id No: 53)
(9) ATNGPRYVVVG (Seq Id No: 54)
(10) EIDGRLK (Seq Id No: 55)
(11) ALQSVGQIVGEVLK (Seq Id No: 56)
(12) ILAGPITK (Seq Id No: 57)
(13) XXVIELPLTNPELFQG (Seq Id No: 58)
(14) VVSSSLVDK (Seq Id No: 59)
(15) ALQDYRK (Seq Id No: 60)
(16) EHREQLK (Seq Id No: 61)
(17) KLESKLDYKPVR (Seq Id No: 62)
P27 (1) LVPTR (Seq Id No: 63)
(2) AKEEEIEAQIK (Seq Id No: 64)
(3) ANYEVLESQK (Seq Id No: 65)
(4) VEDALHQLHAR (Seq Id No: 66)
(5) DVDLYQVR (Seq Id No: 67)
(6) QSQGLSPAQAFAK (Seq Id No: 68)
(7) AGSQSGGSPEAASGVTVSDVQE (Seq Id No: 69)
(8) GLLGXNIIPLQR (Seq Id No: 70)
______________________________________

(2) cDNA Library Screening, Clone Isolation and cDNA Nucleotide Sequence Determination

As mentioned in Example 1 (1), the present inventors have a database comprising about 30,000 cDNA data as constructed based on large-scale DNA sequencing using human fetal brain, arterial blood vessel and placenta cDNA libraries.

Based on the amino acid sequences obtained as mentioned above in (1), computer searching was performed with the FASTA program (search for homology between said amino acid sequences and the amino acid sequences estimated from the database). As regards P42, a clone (GEN-331G07) showing identity with regard to two amino acid sequences [(2) and (7) shown in table 2] was screened out and, as regards P27, a clone (GEN-163D09) showing identity with regard to two amino acid sequences [(1) and (8) shown in Table 2] was found.

For each of these clones, the 5' side sequence was determined by 5' RACE and the whole sequence was determined, in the same manner as in Example 2 (2).

As a result, it was revealed that the above-mentioned P42 clone GEN-331G07 comprises a 1,566-nucleotide sequence as shown under SEQ ID NO:15, inclusive of a 1,167-nucleotide open reading frame as shown under SEQ ID NO:14, and that the amino acid sequence encoded thereby is the one shown under SEQ ID NO:13 and comprises 389 amino acid residues.

The results of computer homology search revealed that the P42 protein is significantly homologous to the AAA (ATPase associated with a variety of cellular activities) protein family (e.g. P45, TBP1, TBP7, S4, MSS1, etc.). It was thus suggested that it is a new member of the AAA protein family.

As for the P27 clone GEN-163D09, it was revealed that it comprises a 1,128-nucleotide sequence as shown under SEQ ID NO:18, including a 669-nucleotide open reading frame as shown under SEQ ID NO:17 and that the amino acid sequence encoded thereby is the one shown under SEQ ID NO:16 and comprises 223 amino acid residues.

As regards the P27 protein, homology search using a computer failed to reveal any homologous gene among public databases. Thus, the gene in question is presumably a novel gene having an unknown function.

Originally, the above-mentioned P42 and P27 gene products were both purified as regulatory subunit components of proteasome complex. Therefore, these are expected to play an important role in various biological functions through proteolysis, for example a role in energy supply through decomposition of ATP and, hence, they are presumably useful not only in studying the function of human 26S proteasome but also in the diagnosis and treatment of various diseases caused by lowering of said biological functions, among others.

Example 6

BNAP Gene

(1) BNAP Gene Cloning and DNA Sequencing

The nucleosome composed of DNA and histone is a fundamental structure constituting chromosomes in eukaryotic cells and is well conserved over borders among species. This structure is closely associated with the processes of replication and transcription of DNA. However, the nucleosome formation is not fully understood as yet. Only certain specific factors involved in nucleosome assembly (NAPs) have been identified. Thus, two acidic proteins, nucleoplasmin and N1, are already known to facilitate nucleosome construction [Kleinschmidt, J. A., et al., J. Biol. Chem., 260, 1166-1176 (1985); Dilworth, S. M., et al., Cell, 51, 1009-1018 (1987)].

A yeast gene, NAP-I, was isolated using a monoclonal antibody and recombinant proteins derived therefrom were tested as to whether they have nucleosome assembling activity in vivo.

More recently, a mouse NAP-I gene, which is a mammalian homolog of the yeast NAP-I gene was cloned (Okuda, A.; registered in database under the accession number D12618). Also cloned were a mouse gene, DN38 [Kato, K., Eur. J. Neurosci., 2, 704-711 (1990)] and a human nucleosome assembly protein (hNRP) [Simon, H. U., et al., Biochem. J., 297, 389-397 (1994)]. It was shown that the hNRP gene is expressed in many tissues and is associated with T lymphocyte proliferation.

The present inventors performed sequence analysis of cDNA clones arbitrarily chosen from a human fetal brain cDNA library in the same manner as in Example 1 (1), followed by searches among databases and, as a result, made it clear that a 1,125-nucleotide cDNA clone (free of poly(A)), GEN-078D05, is significantly homologous to the mouse NAP-I gene, which is a gene for a nucleosome assembly protein (NAP) involved in nucleosome construction, a mouse partial cDNA clone, DN38, and hNRP.

Since said clone GEN-078D05 was lacking in the 5' region, 5' RACE was performed in the same manner as in Example 2 (2) to obtain the whole coding region. For this 5' RACE, primers P1 and P2 respectively having the nucleotide sequences shown below in Table 3.

TABLE 3
__________________________________________________________________________
Primer
Nucleotide sequence
__________________________________________________________________________
Primer P1    5'-TTGAAGAATGATGCATTAGGAACCAC-3' (Seq Id No:71)
- Primer P2    5'-CACTCGAGTGGCTGGATTTCAATTTCTCCAGTAG-3' (Seq Id
__________________________________________________________________________
No:72)

After the first 5' RACE, a single band corresponding to a sequence length of 1,300 nucleotides was obtained. This product was inserted into pT7Blue(R) T-Vector and several clones appropriate in insert size were selected.

Ten 5' RACE clones obtained from two independent PCR reactions were sequenced and the longest clone GEN-078D05TA13 (about 1,300 nucleotides long) was further analyzed.

Both strands of the two overlapping cDNA clones GEN-078D05 and GEN-078D05TA13 were sequenced, whereby it was confirmed that the two clones did not yet cover the whole coding region. Therefore, a further second 5' RACE was carried out. For the second 5' RACE, two primers, P3 and P4, respectively having the sequences shown below in Table 4 were used.

TABLE 4
__________________________________________________________________________
Primer Nucleotide sequence
__________________________________________________________________________
Primer P3
5'-GTCGAGCTAGCCATCTCCTCTTCG-3'
(SeqId No:73)
- Primer P4  5'-CATGGGCGACAGGTTCCGAGACC-3' (Seq Id No:74)
__________________________________________________________________________

A clone, GEN-078D0508, obtained by the second 5' RACE was 300 nucleotides long. This clone contained an estimable initiation codon and three preceding in-frame termination codons. From these three overlapping clones, it became clear that the whole coding region comprises 2,636 nucleotides. This gene was named brain-specific nucleosome assembly protein (BNAP) gene.

The BNAP gene contains a 1,518-nucleotide open reading frame shown under SEQ ID NO:20. The amino acid encoded thereby comprises 506 amino acid residues, as shown under SEQ.ID NO:19, and the nucleotide sequence of the whole cDNA clone of BNAP is as shown under SEQ ID NO:21.

As shown under SEQ ID NO:21, the 5' noncoding region of said gene was found to be generally rich in GC. Candidate initiation codon sequences were found at nucleotides Nos. 266-268, 287-289 and 329-331. These three sequences all had well conserved sequences in the vicinity of the initiation codons [Kozak, M., J. Biol. Chem., 266, 19867-19870 (1991)].

According to the scanning model, the first ATG (nucleotides Nos. 266-268) of the cDNA clone may be the initiation codon. The termination codon was located at nucleotides Nos. 1784-1786.

The 3' noncoding redion was generally rich in AT and two polyadenylation signals (AATAAA) were located at nucleotides Nos. 2606-2611 and 2610-2615, respectively.

The longest open reading frame comprised 1,518 nucleotides coding for 506 amino acid residues and the calculated molecular weight of the BNAP gene product was 57,600 daltons.

Hydrophilic plots indicated that BNAP is very hydrophilic, like other NAPs.

For recombinant BNAP expression and purification and for eliminating the possibility that the BNAP gene sequence might give three chimera clones in the step of 5' RACE, RT-PCR was performed using a sequence comprising nucleotides Nos. 326-356 as a sense primer and a sequence comprising nucleotides Nos. 1758-1786 as an antisenses primer.

As a result, a single product of about 1,500 bp was obtained and it was thus confirmed that said sequence is not a chimera but a single transcript.

(2) Comparison Between BNAP and NAPs

The amino acid sequence deduced from BNAP showed 46% identity and 65% similarity to hNRP.

The deduced BNAP gene product had motifs characteristic of the NAPs already reported and of BNAP. In general, half of the C terminus was well conserved in humans and yeasts.

The first motif (domain I) is KGIPDYWLI (corresponding to amino acid residues Nos. 309-317 of SEQ ID NO:19). This was observed also in hNRP (KGIPSFWLT (SEQ ID NO:75)) and in yeast NAP-I (KGIPEFWLT (SEQ ID NO:76)).

The second motif (domain II) is ASFFNFFSPP (corresponding to amino acid residues Nos. 437-446 of SEQ ID NO:19) and this was expressed as DSFFNFFAPP (SEQ ID NO:77) in hNRP and as ESFFNFFSP (SEQ ID NO:78) in yeast NAP-I.

These two motifs were also conserved in the deduced mouse NAP-I and DN38 peptides. Both conserved motifs were each a hydrophilic cluster, and the Cys in position 402 was also found conserved.

Half of the N terminus had no motifs strictly conserved from yeasts to mammalian species, while motifs conserved among mammalian species were found.

For instance, HDLERKYA (corresponding to amino acid residues Nos. 130 to 137 of SEQ ID NO:19) and IINAEYEPTEEECEW (corresponding to amino acid residues Nos. 150-164 of SEQ ID NO:19), which may be associated with mammal-specific functions, were found strictly conserved.

NAPs had acidic stretches, which are believed to be readily capable of binding to histone or other basic proteins. All NAPs had three acidic stretches but the locations thereof were not conserved.

BNAP has no such three acidic stretches but, instead, three repeated sequences (corresponding to amino acid residues Nos. 194-207, 208-221 and 222-235) with a long acidic cluster, inclusive of 41 amino acid residues out of 98 amino acid residues, the consensus sequence being ExxKExPEVKxEEK (SEQ ID NO:79, each x being a nonconserved, mostly hydrophobic, residue).

Furthermore, it was revealed that the BNAP sequence had several BNAP-specific motifs. Thus, an extremely serine-rich doamin (corresponding to amino acid residues Nos. 24-72) with 33 (67%) of 49 amino acid residues being serine residues was found in the N-terminus portion. On the nucleic acid level, they were reflected as incomplete repetitions of AGC.

Following this serine-rich region, there appeared a basic domain (corresponding to amino acid residues Nos. 71-89) comprising 10 basic amino acid residues among 19 residues.

BNAP is supposed to be localized in the nucleus. Two possible signals localized in the nucleus were observed (NLSs). The first signal was found in the basic domain of BNAP and its sequence YRKKR (corresponding to amino acid residues Nos. 75-79 of SEQ ID NO:19) was similar to NLS (GRKKR (SEQ ID NO:81)) of Tat of HIV-1. The second signal was located in the C terminus and its sequence KKYRK (corresponding to amino acid residues Nos. 502-506 of SEQ ID NO:19) was similar to NLS (KKKRK (SEQ ID NO:81)) of the large T antigen of SV40. The presence of these two presumable NLSs suggested the localization of BNAP in the nucleus. However the possibility that other basic clusters might act as NLSs could not be excluded.

BNAP has several phosphorylation sites and the activity of BNAP may be controlled through phosphorylation thereof.

(3) Northern Blot Analysis

Northern blot analysis was performed as described in Example 1 (2). Thus, the clone GEN-078D05TA13 (corresponding to nucleotides Nos. 323 to 1558 in the BNAP gene sequence) was amplified by PCR, the PCR product was purified and labeled with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer Mannheim), and the expression of BNAP mRNA in normal human tissues was examined using an MTN blot with the labeled product as a probe.

As a result of Northern blot analysis, a 3.0 kb transcript of BNAP was detected (8-hour exposure) in the brain among eight human adult tissues tested, namely heart, brain, placenta, lung, liver, skeletal muscle, kidney and pancreas and, after longer exposure (24 hours), a dim band of the same size was detected in the heart.

BNAP was found equally expressed in several sites of brain tested whereas, in other tissues, no signal was detected at all even after 72 hours of exposure. hNRP mRNA was found expressed everywhere in the human tissues tested whereas the expression of BNAP mRNA was tissue-specific.

(4) Radiation Hubrid Mapping

Chromosomal mapping of the BNAP clone was performed by means of radiation hibrid mapping [Cox, D. R., et al., Science, 250, 245-250 (1990)].

Thus, a total human genome radiation hybrid clone (G3RH) panel was purchased from Research Genetics, Inc., AL, USA and PCR was carried out for chromosomal mapping analysis according to the product manual using two primers, A1 and A2, respectively having the nucleotide sequences shown in Table 5.

TABLE 5
__________________________________________________________________________
Primer Nucleotide sequence
__________________________________________________________________________
A1 primer
5'-CCTAAAAAGTGTCTAAGTGCCAGTT-3'
(SeqId No:82)
- A2 primer  5'-TCAGTGAAAGGGAAGGTAGAACAC-3' (Seq Id No:83)
__________________________________________________________________________

The results obtained were analyzed utilizing softwares usable on the Internet [Boehnke, M., et al., Am. J. Hum. Genet., 46, 581-586 (1991)].

As a result, the BNAP gene was found strongly linked to the marker DXS990 (LOD=1000, cR8000=-0.00). Since DXS990 is a marker localized on the chromosome Xq21.3-q22, it was established that BNAP is localized to the chromosomal locus Xq21.3-q22 where genes involved in several signs or symptoms of X-chromosome-associated mental retardation are localized.

The nucleosome is not only a fundamental chromosomal structural unit characteristic of eukaryotes but also a gene expression regulating unit. Several results indicate that genes with high transcription activity are sensitive to nuclease treatment, suggesting that the chromosome structure changes with the transcription activity [Elgin, S. C. R., J. Biol. Chem., 263, 19259-19262 (1988)].

NAP-I has been cloned in yeast, mouse and human and is one of the factors capable of promoting nucleosome construction in vivo. In a study performed on their sequences, NAPs containing the epitope of the specific antibody 4A8 were detected in human, mouse, frog, Drosophila and yeast (Saccharomyces cerevisiae) [Ishimi, Y., et al., Eur. J. Biochem., 162, 19-24 (1987)].

In these experiments, NAPs, upon SDS-PAGE analysis, electrophoretically migrated to positions corresponding to a molecular weight between 50 and 60 kDa, whereas the recombinant BNAP slowly migrated to a position of about 80 kDa. The epitope of 4A8 was shown to be localized in the second, well-conserved, hydrophobic motif. And, it was simultaneously shown that the triplet FNF is important as a part of the epitope [Fujii-Nakata, T., et al., J. Biol. Chem., 267, 20980-20986 (1992)].

BNAP also contained this consensus motif in domain II. The fact that domain II is markedly hydrophobic and the fact that domain II can be recognized by the immune system suggest that it is probably presented on the BNAP surface and is possibly involved in protein-protein interactions.

Domain I, too, may be involved in protein-protein interactions. Considering that these are conserved generally among NAPs, though to a relatively low extent, it is conceivable that they must be essential for nucleosome construction, although the functional meaning of the conserved domains is still unknown.

The hNRP gene is expressed in thyroid gland, stomach, kidney, intestine, leukemia, lung cancer, mammary cancer and so on [Simon, H. U., et al., Biochem. J., 297, 389-397 (1994)]. Like that, NAPs are expressed everywhere and are thought to be playing an important role in fundamental nucleosome formation.

BNAP may be involved in brain-specific nucleosome formation and an insufficiency thereof may cause neurological diseases or mental retardation as a result of deviated functions of neurons.

BNAP was found strongly linked to a marker on the X-chromosome q21.3-q22 where sequences involved in several symptoms of X-chromosome-associated mental retardation are localized. This center-surrounding region of X-chromosome was rich in genes responsible for α-thalassemia, mental retardation (ATR-X) or some other forms of mental retardation [Gibbons, R. J., et al., Cell, 80, 837-845 (1995)]. Like the analysis of the ATR-X gene which seems to regulate the nucleosome structure, the present inventors suppose that BNAP may be involved in a certain type of X-chromosome-linked mental retardation.

According to this example, the novel BNAP gene is provided and, when said gene is used, it is possible to detect the expression of said gene in various tissues and to produce the BNAP protein by the technology of genetic engineering. Through these, it is possible to study the brain nucleosome formation deeply involved, as mentioned above, in variegated activities essential to cells as well as the functions of cranial nerve cells and to diagnose various neurological diseases or mental retardation in which these are involved and screen out and evaluate drugs for the treatment or prevention of such diseases.

Example 7

Human Skeletal Muscle-specific Ubiquitin-conjugating Enzyme Gene (UBE2G gene)

The ubiquitin system is a group of enzymes essential for cellular processes and is conserved from yeast to human. Said system is composed of ubiquitin-activating enzymes (UBAs), ubiquitin-conjugating enzymes (UBCs), ubiquitin protein ligases (UBRs) and 26S proteasome particles.

Ubiquitin is transferred from the above-mentioned UBAs to several UBCs, whereby it is activated. UBCs transfer ubiquitins to target proteins with or without the participation of UBRs. These ubiquitin-conjugated target proteins are said to induce a number of cellular responses, such as protein degradation, protein modification, protein translocation, DNA repair, cell cycle control, transcription control, stress responses, etc. and immunological responses [Jentsch, S., et al., Biochim. Biophys. Acta, 1089, 127-139 (1991); Hershko, A. and Ciechanover, A., Annu. Rev. Biochem., 61, 761-807 (1992); Jentsch, S., Annu. Rev. Genet., 26, 179-207 (1992); Ciechanover, A., Cell, 79, 13-21 (1994)].

UBCs are key components of this system and seem to have distinct substrate specificities and modulate different functions. For example, Saccharomyces cerevisiae UBC7 is induced by cadmium and involved in resistance to cadmium poisoning [Jungmann, J., et al., Nature, 361, 369-371 (1993)]. Degradation of MAT-α2 is also executed by UBC7 and UBC6 [Chen, P., et al., Cell, 74, 357-369 (1993)].

The novel gene obtained in this example is UBC7-like gene strongly expressed in human skeletal muscle. In the following, cloning and and DNA sequencing thereof are described.

(1) Cloning and DNA Sequencing of Human Skeletal Muscle-specific Ubiquitin-conjugating Enzyme Gene (UBE2G gene)

Following the same procedure as in Example 1 (1), cDNA clones were arbitrarily selected from a human fetal brain cDNA library and subjected to sequence analysis, and database searches were performed. As a result, a cDNA clone, GEN-423A12, was found to have a significantly high level of homology to the genes coding for ubiquitin-conjugating enzymes (UBCs) in various species.

Since said GEN-423A12 clone was lacking in the 5' side, 5' RACE was performed in the same manner as in Example 2 (2) to obtain an entire coding region.

For said 5' RACE, two primers, P1 and P2, respectively having the nucleotide sequences shown in Table 6 were used.

TABLE 6
__________________________________________________________________________
Primer Nucleotide sequence
__________________________________________________________________________
P1 primer
5'-TAATGAATTTCATTTTAGGAGGTCGG-3'
(Seq Id No:84)
- P2 primer    5'-ATCTTTTGGGAAAGTAAGATGAGCC-3' (Seq Id No:85)
__________________________________________________________________________

The 5' RACE product was inserted into pT7Blue(R) T-Vector and clones with an insert proper in size were selected.

Four of the 5' RACE clones obtained from two independent PCR reactions contained the same sequence but were different in length.

By sequencing the above clones, the coding sequence and adjacent 5'- and 3'-flanking sequences of the novel gene were determined.

As a result, it was revealed that the novel gene has a total length of 617 nucleotides. This gene was named human skeletal muscle-specific ubiquitin-conjugating enzyme gene (UBE2G gene).

To exclude the conceivable possibility that this sequence was a chimera clone, RT-PCR was performed in the same manner as in Example 6 (1) using the sense primer to amplify said sequence from the human fetal brain cDNA library. As a result, a single PCR product was obtained, whereby it was confirmed that said sequence is not a chimera one.

The UBE2G gene contains an open reading frame of 510 nucleotides, which is shown under SEQ ID NO:23, the amino acid sequence encoded thereby comprises 170 amino acid residues, as shown under SEQ ID NO:22, and the nucleotide sequence of the entire UBE2G cDNA is as shown under SEQ ID NO:24.

As shown under SEQ ID NO:24, the estimable initiation codon was located at nucleotides Nos. 19-21, corresponding to the first ATG triplet of the cDNA clone. Since no preceding in-frame termination codon was found, it was deduced that this clone contains the entire open reading frame on the following grounds.

Thus, (a) the amino acid sequence is highly homologous to S. cerevisiae UBC7 and said initiation codon agrees with that of yeast UBC7, supporting said ATG as such. (b) The sequence AGGATGA is similar to the consensus sequence (A/G)CCATGG around the initiation codon [Kozak, M., J. Biol. Chem., 266, 19867-19870 (1991)].

(2) Comparison in Amino Acid Sequence between UBE2G and UBCs

Comparison in amino acid sequence between UBE2G and UBCs suggested that the active site cystein capable of binding to ubiquitin should be the 90th residue cystein. The peptides encoded by these genes seem to belong to the same family.

(3) Northern Blot Analysis

Northern blot analysis was carried out as described in Example 1 (2). Thus, the entire sequence of UBE2G was amplified by PCR, the PCR product was purified and labeled with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer. Mannheim) and the expression of UBE2G mRNA in normal human tissues using the labeled product as a probe. The membrane used was an MTN blot.

As a result of the Northern blot analysis, 4.4 kb, 2.4 kb and 1.6 kb transcripts could be detected in all 16 human adult tissues, namely heart, brain, placenta, lung, liver, skeletal muscle, kidney, pancreas, spleen, thyroid gland, urinary bladder, testis, ovary, small intestine, large intestine and peripheral blood leukocye, after 18 hours of exposure. Strong expression of these transcripts was observed in skeletal muscle.

(4) Radiation Hybrid Mapping

Chromosomal mapping of the UBE2G clone was performed by radiation hybrid mapping in the same manner as in Example 6 (4).

The primers C1 and C4 used in PCR for chromosomal mapping analysis respectively correspond to nucleotides Nos. 415-435 and nucleotides Nos. 509-528 in the sequence shown under SEQ ID NO:24 and their nucleotide sequences are as shown below in Table 7.

TABLE 7
______________________________________
Primer Nucleotide sequence
______________________________________
C1     5'-GGAGACTCACCTGCTAATGTT-3'
(Seq Id No:86)
primer
- C4 5'-CTCAAAAGCAGTCTCTTGGC-3' (Seq Id No:87)
primer
______________________________________

As a result, the UBE2G gene was found linked to the markers D1S446 (LOD=12.52, cR8000=8.60) and D1S235 (LOD=9.14, cR8000=22.46). These markers are localized to the chromosome bands 1q42.13-q42.3.

UBE2G was expressed strongly in skeletal muscle and very weakly in all other tissues examined. All other UBCs are involved in essential cellular functions, such as cell cycle control, and those UBCs are expressed ubiquitously. However, the expression pattern of UBE2G might suggest a muscle-specific role thereof.

While the three transcripts differing in size were detected, attempts failed to identify which corresponds to the cDNA clone. The primary structure of the UBE2G product showed an extreme homology to yeast UBC7. On the other hand, nematode UBC7 showed strong homology to yeast UBC7. It is involved in degradation of the repressor and further confers resistance to cadmium in yeasts. The similarities among these proteins suggest that they belong to the same family.

It is speculated that UBE2G is involved in degradation of muscle-specific proteins and that a defect in said gene could lead to such diseases as muscular dystrophy. Recently, another proteolytic enzyme, calpain 3, was found to be responsible for limb-girdle muscular dystrophy type 2A [Richard, I., et al., Cell, 81, 27-40 (1995)]. At the present, the chromosomal location of UBE2G suggests no significant relationship with any hereditary muscular disease but it is likely that a relation to the gene will be unearthed by linkage analysis in future.

In accordance with this example, the novel UBE2G gene is provided and the use of said gene enables detection of its expression in various tissues and production of the UBE2G protein by the technology of genetic engineering. Through these, it becomes possible to study the degradation of muscle-specific proteins deeply involved in basic activities variegated and essential to cells, as mentioned above, and the functions of skeletal muscle, to diagnose various muscular diseases in which these are involved and further to screen out and evaluate drugs for the treatment and prevention of such diseases.

Example 8

TMP-2 Gene

(1) TMP-2 Gene Cloning and DNA Sequencing

Following the procedure of Example 1 (1), cDNA clones were arbitrarily selected from a human fetal brain cDNA library and subjected to sequence analysis, and database searches were performed. As a result, a clone (GEN-092E10) having a cDNA sequence highly homologous to a transmembrane protein gene (accession No.: U19878) was found out.

Membrane protein genes have so far been cloned in frog (Xenopus laevis) and human. These are considered to be a gene for a transmembrane type protein having a follistatin module and an epidermal growth factor (EGF) domain (accession No.: U19878).

The sequence information of the above protein gene indicated that the GEN-092E10 clone was lacking in the 5' region, so that the λgt10 cDNA library (human fetal brain 5'-STRETCH PLUS cDNA; Clontech) was screened using the GEN-092E10 clone as a probe, whereby a cDNA clone containing a further 5' upstream region was isolated.

Both strands of this cDNA clone were sequenced, whereby the sequence covering the entire coding region became clear. This gene was named TMP-2 gene.

The TMP-2 gene was found to contain an open reading frame of 1,122 nucleotides, as shown under SEQ ID NO:26, encoding an amino acid sequence of 374 residues, as shown under SEQ ID NO:25. The nucleotide sequence of the entire TMP-2 cDNA clone comprises 1,721 nucleotides, as shown under SEQ ID N0:27.

As shown under SEQ ID NO:27, the 5' noncoding region was generally rich in GC. Several candidates for the initiation codon were found but, according to the scanning model, the 5th ATG of the cDNA clone (bases Nos. 368-370) was estimated as the initiation codon. The termination codon was located at nucleotides Nos. 1490-1492. The polyadenylation signal (AATAAA) was located at nucleotides Nos. 1703-1708. The calculated molecular weight of the TMP-2 gene product was 41,400 daltons.

As mentioned above, the transmembrane genes have a follistatin module and an EGF domain. These motifs were also found conserved in the novel human gene of the present invention.

The TMP-2 gene of the present invention presumably plays an important role in cell proliferation or intercellular communication, since, on the amino acid level, said gene shows homology, across the EGF domain, to TGF-α (transforming growth factor-α; Derynck, R., et al., Cell, 38, 287-297 (1984)], beta-cellulin [Igarashi, K. and Folkman, J., Science, 259, 1604-1607 (1993)], heparin-binding EGF-like growth factor [Higashiyama, S., et al., Science, 251, 936-939 (1991)] and schwannoma-derived growth factor [Kimura, H., et al., Nature, 348, 257-260 (1990)].

(2) Northern Blot Analysis

Northern blot analysis was carried out as described in Example 1 (2). Thus, the clone GEN-092E10 was amplified by PCR, the PCR product was purified and labeled with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer Mannheim), and the expression of TMP-2 mRNA in normal human tissues was examined using an MTN blot with the labeled product as a probe.

As a result, high levels of expression were detected in brain and prostate gland. Said TMP-2 gene mRNA was about 2 kb in size.

According to the present invention, the novel human TMP-2 gene is provided and the use of said gene makes it possible to detect the expression of said gene in various tissues or produce the human TMP-2 protein by the technology of genetic engineering and, through these, it becomes possible to study brain tumor and prostatic cancer, which are closely associated with cell proliferation or intercellular communication, as mentioned above, to diagnose these diseases and to screen out and evaluate drugs for the treatment and prevention of such diseases.

Example 9

Human NPIK Gene

(1) Human NPIK Gene Cloning and DNA Sequencing

Following the procedures of Example 1 and Example 2, cDNA clones were arbitrarily selected from a human fetal brain cDNA library and subjected to sequence analysis, and database searches were performed. As a result, two cDNA clones highly homologous to the gene coding for an amino acid sequence conserved in phosphatidylinositol 3 and 4 kinases [Kunz, J., et al., Cell, 73, 585-596 (1993)] were obtained. These were named GEN-428B12c1 and GEN-428B12c2 and the entire sequences of these were determined as in the foregoing examples.

As a result, the GEN-428B12c1 cDNA clone and the GEN-428B12c2 clone were found to have coding sequences differing by 12 amino acid residues at the 5' terminus, the GEN-428B12c1 cDNA clone being longer by 12 amino acid residues.

The GEN-428B12c1 cDNA sequence of the human NPIK gene contained an open reading frame of 2,487 nucleotides, as shown under SEQ ID NO:32, encoding an amino acid sequence comprising 829 amino acid residues, as shown under SEQ ID NO:31. The nucleotide sequence of the full-length cDNA clone comprised 3,324 nucleotides as shown under SEQ ID NO:33.

The estimated initiation codon was located, as shown under SEQ ID NO:33, at nucleotides Nos. 115-117 corresponding to the second ATG triplet of the cDNA clone. The termination codon was located at nucleotides Nos. 2602-2604 and the polyadenylation signal (AATAAA) at Nos. 3305-3310.

On the other hand, the GEN-428B12c2 cDNA sequence of the human NPIK gene contained an open reading frame of 2,451 nucleotides, as shown under SEQ ID NO:29. The amino acid sequence encoded thereby comprised 817 amino acid residues, as shown under SEQ ID NO:28. The nucleotide sequence of the full-length cDNA clone comprised 3,602 nucleotides, as shown under SEQ ID NO:30.

The estimated initiation codon was located, as shown under SEQ ID NO:30, at nucleotides Nos. 429-431 corresponding to the 7th ATG triplet of the cDNA clone. The termination codon was located at nucleotides Nos. 2880-2882 and the polyadenylation signal (AATAAA) at Nos. 3583-3588.

(2) Northern Blot Analysis

Northern blot analysis was carried out as described in Example 1 (2). Thus, the entire sequence of human NPIK was amplified by PCR, the PCR product was purified and labeled with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer Mannheim), and normal human tissues were examined for expression of the human NPIK mRNA using the MTN blot membrane with the labeled product as a probe.

As a result, the expression of the human NPIK gene was observed in 16 various human adult tissues examined and an about 3.8 kb transcript and an about 5 kb one could be detected.

Using primer A having the nucleotide sequence shown below in Table 8 and containing the initiation codon of the GEN-428B12c2 cDNA and primer B shown in table 8 and containing the termination codon, PCR was performed with Human Fetal Brain Marathon-Ready cDNA (Clontech) as a template, and the nucleotide sequence of the PCR product was determined.

TABLE 8
______________________________________
Primer
Nucleotide sequence
______________________________________
Primer
5'-ATGGGAGATACAGTAGTGGAGC-3'
(Seq Id No:88)
A
- Primer   5'-TCACATGATGCCGTTGGTGAG-3' (Seq Id No:89)
B
______________________________________

As a result, it was found that the human NPIK mRNA expressed included one lacking in nucleotides Nos. 1060-1104 of the GEN-428B12c1 cDNA sequence (SEQ ID NO:33) (amino acids Nos. 316-330 of the amino acid sequence under SEQ ID NO:31) and one lacking in nucleotides Nos. 1897-1911 of the GEN-428B12c1 cDNA sequence (SEQ ID N0:33) (amino acids Nos. 595-599 of the amino acid sequence under SEQ ID NO:31).

It was further revealed that polymorphism existed in this gene (428B12c1.fasta), as shown below in Table 9, in the region of bases Nos. 1941-1966 of the GEN-428B12c1 cDNA sequence shown under SEQ ID NO:33, whereby a mutant protein was encoded which resulted from the mutation of IQDSCEITT (amino acid residues Nos. 610-618 in the amino acid sequence (SEQ ID NO:31) encoded by GEN-428B12c1) into YKILVISA.

TABLE 9
__________________________________________________________________________
1930      1940      1950     1959
TGGATCAAGCCAATACAAGATTCTTGTGAA
|||.vert
line.|||
|||.vert
line. ||.vertline
.|||.ver
tline.||.vertline
.|||.ver
tline.||
TCCATTTGGGAACAGGAGGGAGTGCCCCTTT
GGATCAAGCC-ATACAAGATTCTTGTG--
1900      1910      1920
1930      1940       1950
- 1960      1970      1980
ATTACGACTGATAGTGGCATG                                     (Seq Id
No:90)
||| || |.ver
tline.||.vertline
.|||.ver
tline.||
ATTTCGGCTGATAGTGGCATGATTGAACCAG
TGGTCAATGCTGTGTCCATCCATCAGGTG (Seq
Id No:91)
1960      1970      1980      1990      2000      2010
__________________________________________________________________________

(3) Chromosomal Mapping of Human NPIK Gene by FISH

Chromosomal mapping of the human NPIK gene was carried out by FISH as described in Example 1 (3).

As a result, it was found that the locus of the human NPIK gene is in the chromosomal position 1q21.1-q21.3.

The human NPIK gene, a novel human gene, of the present invention included two cDNAs differing in the 5' region and capable of encoding 829 and 817 amino acid residues, as mentioned above. In view of this and further in view of the findings that the mRNA corresponding to this gene includes two deletable sites and there occurs polymorphism in a specific region corresponding to amino acid residues Nos. 610-618 of the GEN-428B12c1 amino acid sequence (SEQ ID NO:31), whereby a mutant protein is encoded, it is conceivable that human NPIK includes species resulting from a certain number of combinations, namely human NPIK, deletion-containing human NPIK, human NPIK mutant and/or deletion-containing human NPIK mutant.

Recently, several proteins belonging to the family including the above-mentioned PI3 and 4 kinases have protein kinase activity [Dhand, R., et al., EMBO J., 13, 522-533 (1994); Stack, J. H. and Emr, S. D., J. Biol. Chem., 269, 31552-31562 (1994); Hartley, K. O., et al., Cell, 82, 848-856 (1995)].

It was also revealed that a protein belonging to this family is involved in DNA repair [Hartley, K. O., et al., Cell, 82, 849-856 (1995)] and is a causative gene of ataxia [Savitsky, K., et al., Science, 268, 1749-1753 (1995)].

It can be anticipated that the human NPIK gene-encoded protein highly homologous to the family of these PI kinases is a novel enzyme phosphorylating lipids or proteins.

According to this example, the novel human NPIK gene is provided. The use of said gene makes it possible to detect the expression of said gene in various tissues and manufacture the human NPIK protein by the technology of genetic engineering and, through these, it becomes possible to study lipid- or protein-phosphrylating enzymes such as mentioned above, study DNA repairing, study or diagnose diseases in which these are involved, for example cancer, and screen out and evaluate drugs for the treatment or prevention thereof.

(4) Construction of an Expression Vector for Fusion Protein

To subclone the coding region for a human NPIK gene (GEN-428B12c2), first of all, two primers, C1 and C2, having the sequences shown below in Table 10 were formed based on the information on the DNA sequences obtained above in (1).

TABLE 10
__________________________________________________________________________
Primer
Nucleotide sequence
__________________________________________________________________________
Primer C1
5'-CTCAGATCTATGGGAGATACAGTAGTGGAGC-3'
(SeqId No:92)
- Primer C2   5'-TCGAGATCTTCACATGATGCCGTTGGTGAG-3' (Seq Id No:93)
__________________________________________________________________________

Both of the primers C1 and C2 have a BglII site, and primer C2 is an antisense primer.

Using these two primers, cDNA derived from human fetal brain mRNA was amplified by PCR to provide a product having a length of about 2500 bases. The amplified cDNA was precipitated from ethanol and inserted into pT7BlueT-Vector (product of Novagen) and subcloning was completed. The entire sequence was determined in the same manner as above in Examples. As a result, it was revealed that this gene had polymorphism shown above in Table 9.

The above cDNA was cleaved by BglII and subjected to agarose gel electrophoresis. The cDNA was then excised from agarose gel and collected using GENECLEAN II KIT (product of Bio 101). The cDNA was inserted into pBlueBacHis2B-Vector (product of Invitrogen) at the BglII cleavage site and subcloning was completed.

The fusion vector thus obtained had a BglII cleavage site and was an expression vector for a fusion protein of the contemplated gene product (about 91 kd) and 38 amino acids derived from pBlueBacHis2B-Vector and containing a polyhistidine region and an epitope recognizing Anti-Xpress™ antibody (product of Invitrogen).

(5) Transfection into Insect Cell Sf-9

The human NPIK gene was expressed according to the Baculovirus expression system. Baculovirus is a cyclic double-stranded insect-pathogenic virus and can produce large amounts of inclusion bodies named polyhedrn in the cells of insects. Using Bac-N-Blue™ Transfection Kit utilizing this characteristic of Baculovirus and developed by Invitrogen, the Baculovirus expression was carried out.

Stated more specifically, 4 μg of pBlueBacHis2B containing the region of the human NPIK gene and 1 μg of Bac-N-Blue™ DNA (product of Invitrogen) were co-transfected into Sf-9 cells in the presence of Insectin™ liposomes (product of Invitrogen).

Prior to co-transfection, LacZ gene was incorporated into Bac-N-Blue™ DNA, so that LacZ would be expressed only when homologous recombination took place between the Bac-N-Blue™ DNA and pBlueBacHis2B. Thus when the co-transfected Sf-9 cells were incubated on agar medium, the plaques of the virus expressing the contemplated gene were easily detected as blue plaques.

The blue plaques were excised from each agar and suspended in 400 μl of medium to disperse the virus thereon. The suspension was subjected to centrifugation to give a supernatant containing the virus. Sf-9 cells were infected with the virus again to increase the titre and to obtain a large amount of infective virus solution.

(6) Preparation of Human NPIK

The expression of the contemplated human NPIK gene was confirmed three days after infection with the virus as follows.

Sf-9 cells were collected and washed with PBS. The cells were boiled with a SDS-PAGE loading buffer for 5 minutes and SDS-PAGE was performed. According to the western blot technique using Anti-Xpress as an antibody, the contemplated protein was detected at the position of its presumed molecular weight. By contrast, in the case of control cells uninfected with the virus, no band corresponding to human NPIK was observed in the same test.

Stated more specifically, three days after the infection of 15 flasks (175-cm², FALCON) of semi-confluent Sf-9 cells, the cells were harvested and washed with PBS, followed by resuspension in a buffer (20 mM Tris/HCl (pH 7.5), 1 mM EDTA and 1 mM DTT). The suspended cells were lysed by 4 time-sonications for 30 seconds at 4°C with 30 seconds intervals. The sonicated cells were subjected to centrifugation and the supernatant was collected. The protein in the supernatant was immunoprecipitated using an Anti-Xpress antibody and obtained as a slurry of protein A-Sepharose beads. The slurry was boiled with a SDS-PAGE loading buffer for 5 minutes. SDS-PAGE was performed for identification and quantification of NPIK. The slurry itself was subjected to the following assaying.

(7) Confirmation of PI4 Kinase Activity

NPIK was expected to have the activity of incorporation phosphoric acid at the 4-position of the inositol ring of phosphatidylinositol (PI), namely, PI4 Kinase activity.

PI4 Kinase activity of NPIK was assayed according to the method of Takenawa, et al. (Yamakawa, A. and Takenawa, T., J. Biol. Chem., 263, 17555-17560 (1988)) as shown below.

First prepared was a mixture of 10 μl of a NPIK slurry (20 mM Tris/HCl (pH 7.5), 1 mM EDTA, 1 mM DTT and 50% protein A beads), 10 μl of a PI solution (prepared by drying 5 mg of a PI-containing commercial chloroform solution in a stream of nitrogen onto a glass tube wall, adding 1 ml of 20 mM Tris/HCl (pH 7.5) buffer and forming micelles by sonication), 10 μl of an applied buffer (210 mM Tris/HCl (pH 7.5), 5 mM EGTA and 100 mM MgCl₂) and 10 μl of distilled water. Thereto was added 10 μl of an ATP solution (5 μl of 500 μM ATP, 4.9 μl of distilled water and 0.1 μl of γ-³2 P ATP (6000 Ci/mmol, product of NEN Co., Ltd.)). The reaction was started at 30°C and continued for 2, 5, 10 and 20 minutes. The time 10 minutes was set as incubation time because a straight-line increase was observed around 10 minutes in incorporation of phosphoric acid into PI in the assaying process described below.

After completion of the reaction, PI was fractionated by the solvent extraction method and finally re-suspended in chloroform. The suspension was developed by thin layer chromatography (TLC) and the radioactivity of the reaction product at the PI4P-position was assayed using an analyzer (trade name: Bio-Image; product of Fuji Photo Film Co., Ltd.).

FIG. 1 shows the results. FIG. 1 is an analytical diagram of the results of assaying the radioactivity based on TLC as mentioned above. The right lane (2) is the fraction of Sf-9 cell cytoplasm infected with the NPIK-containing virus, whereas the left lane (1) is the fraction of uninfected Sf-9 cell cytoplasm.

Also, predetermined amounts of Triton X-100 and adenosine were added to the above reaction system to check how such addition would affect the PI4 Kinase activity. The PI4 Kinase activity was assayed in the same manner as above.

FIG. 2 shows the results. The results confirmed that NPIK had a typical PI4 Kinaze activity accelerated by Triton X-100 and inhibited by adenosine.

Example 10

nel-related Protein Type 1 (NRP1) Gene and nel-related Protein Type 2 (NRP2) Gene

(1) Cloning and DNA Sequencing of NRP1 Gene and NRP2 Gene

EGF-like repeats have been found in many membrane proteins and in proteins related to growth regulation and differentiation. This motif seems to be involved in protein-protein interactions.

Recently, a gene encoding nel, a novel peptide containing five EGF-like repeats, was cloned from a chick embryonic cDNA library [Matsuhashi, S., et al., Dev. Dynamics, 203, 212-222 (1995)]. This product is considered to be a transmembrane molecule with its EGF-like repeats in the extracellular domain. A 4.5 kb transcript (nel mRNA) is expressed in various tissues at the embryonic stage and exclusively in brain and retina after hatching.

Following the procedure of Example 1 (1), cDNA clones were randomly selected from a human fetal brain cDNA library and subjected to sequence analysis, followed by database searching. As a result, two cDNA clones with significantly high homology to the above-mentioned nel were found and named GEN-073E07 and GEN-093E05, respectively.

Since both clones were lacking in the 5' portion, 5' RACE was performed in the same manner as in Example 2 (2) to obtain the entire coding regions.

As for the primers for 5' RACE, primers having an arbitrary sequence obtained from the cDNA sequences of the above clones were synthesized while the anchor primer attached to a commercial kit was used as such.

5' RACE clones obtained from the PCR were sequenced and the sequences seemingly covering the entire coding regions of both genes were obtained. These genes were respectively named nel-related protein type 1 (NRP1) gene and nel-related protein type 2 (NRP2) gene.

The NRP1 gene contains an open reading frame of 2,430 nucleotides, as shown under SEQ ID NO:35, the amino acid sequence deduced therefrom comprises 810 amino acid residues, as shown under SEQ ID NO:34, and the nucleotide sequence of the entire cDNA clone of said NRP1 gene comprises 2,977 nucleotides, as shown under SEQ ID NO:36.

On the other hand, the NRP2 gene contains an open reading frame of 2,448 nucleotides, as shown under SEQ ID NO:38, the amino acid sequence deduced therefrom comprises 816 amino acid residues, as shown under SEQ ID NO:37, and the nucleotide sequence of the entire cDNA clone of said NRP2 gene comprises 3,198 nucleotides, as shown under SEQ ID NO:39.

Furthermore, the coding regions were amplified by RT-PCR to exclude the possibility that either of the sequences obtained was a chimeric cDNA.

The deduced NRP1 and NRP2 gene products both showed highly hydrophobic N termini capable of functioning as signal peptides for membrane insertion. As compared with chick embryonic nel, they both appeared to have no hydrophobic transmembrane domain. Comparison among NRP1, NRP2 and nel with respect to the deduced peptide sequences revealed that NRP2 has 80% homology on the amino acid level and is more closely related to nel than NRP1 having 50% homology. The cysteine residues in cysteine-rich domains and EGF-like repeats were found completely conserved.

The most remarkable difference between the NRPs and the chick protein was that the human homologs lack the putative transmembrane domain of nel. However, even in this lacking region, the nucleotide sequences of NRPs were very similar to that of nel. Furthermore, the two NRPs each possessed six EGF-like repeats, whereas nel has only five.

Other unique motifs of nel as reported by Matsuhashi et al. [Matsuhashi, S., et al., Dev. Dynamics, 203, 212-222 (1995)] were also found in the NRPs at equivalent positions. Since as mentioned above, it was shown that the two deduced NRP peptides are not transmembrane proteins, the NRPs might be secretory proteins or proteins anchored to membranes as a result of posttranslational modification.

The present inventors speculate that NRPs might function as ligands by stimulating other molecules such as EGF receptors. The present inventors further found that an extra EGF-like repeat could be encoded in nel upon frame shifting of the membrane domain region of nel.

When paralleled and compared with NRP2 and nel, the frame-shifted amino acid sequence showed similarities over the whole range of NRP2 and of nel, suggesting that NRP2 might be a human counterpart of nel. In contrast, NRP1 is considered to be not a human counterpart of nel but a homologous gene.

(2) Northern Blot Analysis

Northern blot analysis was carried out as described in Example 1 (2). Thus, the entire sequences of both clones cDNAs were amplified by PCR, the PCR products were purified and labeled with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer Mannheim) and human normal tissues were examined for NRP mRNA expression using an MTN blot with the labeled products as two probes.

Sixteen adult tissues and four human fetal tissues were examined for the expression pattern of two NRPs.

As a result of the Northern blot analysis, it was found that a 3.5 kb transcript of NRP1 was weakly expressed in fetal and adult brain and kidney. A 3.6 kb transcript of NRP2 was strongly expressed in adult and fetal brain alone, with weak expression thereof in fetal kidney as well.

This suggests that NRPs might play a brain-specific role, for example as signal molecules for growth regulation. In addition, these genes might have a particular function in kidney.

(3) Chromosomal Mapping of NRP1 Gene and NRP2 Gene by FISH

Chromosomal mapping of the NRP1 gene and NRP2 gene was performed by FISH as described in Example 1 (3).

As a result, it was revealed that the chromosomal locus of the NRP1 gene is localized to 11p15.1-p15.2 and the chromosomal locus of the NRP2 gene to 12q13.11-q13.12.

According to the present invention, the novel human NRP1 gene and NRP2 gene are provided and the use of said genes makes it possible to detect the expression of said genes in various tissues and produce the human NRP1 and NRP2 proteins by the technology of genetic engineering. They can further be used in the study of the brain neurotransmission system, diagnosis of various diseases related to neurotransmission in the brain, and the screening and evaluation of drugs for the treatment and prevention of such diseases. Furthermore, the possibility is suggested that these EGF domain-containing NRPs act as growth factors in brain, hence they may be useful in the diagnosis and treatment of various kinds of intracerebral tumor and effective in nerve regeneration in cases of degenerative nervous diseases.

Example 11

GSPT1-related Protein (GSPT1-TK) Gene

(1) GSPT1-TK Gene Cloning and DNA Sequencing

The human GSPT1 gene is one of the human homologous genes of the yeast GST1 gene that encodes the GTP-binding protein essential for the G1 to S phase transition in the cell cycle. The yeast GST1 gene, first identified as a protein capable of complementing a temperature-sensitive gstl (G1-to-S transition) mutant of Saccharomyces cerevisiae, was isolated from a yeast genomic library [Kikuchi, Y., Shimatake, H. and Kikuchi, A., EMBO J., 7, 1175-1182 (1988)] and encoded a protein with a target site of cAMP-dependent protein kinases and a GTPase domain.

The human GSPT1 gene was isolated from a KB cell cDNA library by hybridization using the yeast GST1 gene as a probe [Hoshino, S., Miyazawa, H., Enomoto, T., Hanaoka, F., Kikuchi, Y., Kikuchi, A. and Ui, M., EMBO J., 8, 3807-3814 (1989)]. The deduced protein of said GSPT1 gene, like yeast GST1, has a GTP-binding domain and a GTPase activity center, and plays an important role in cell proliferation.

Furthermore, a breakpoint for chromosome re-arrangement has been observed in the GSPT1 gene located in the chromosomal locus 16p13.3 in patients with acute nonlymphocytic leukemia (ANLL) [Ozawa, K., Murakami, Y., Eki, T., Yokoyama, K. Soeda, E., Hoshino, S. Ui, M. and Hanaoka, F., Somatic Cell and Molecular Genet., 18, 189-194 (1992)].

cDNA clones were randomly selected from a human fetal brain cDNA library and subjected to sequence analysis as described in Example 1 (1) and database searching was performed and, as a result, a clone having a 0.3 kb cDNA sequence highly homologous to the above-mentioned GSPT1 gene was found and named GEN-077A09. The GEN-077A09 clone seemed to be lacking in the 5' region, so that 5' RACE was carried out in the same manner as in Example 2 (2) to obtain the entire coding region.

The primers used for the 5' RACE were P1 and P2 primers respectively having the nucleotide sequences shown in Table 11 as designed based on the known cDNA sequence of the above-mentioned cDNA, and the anchor primer used was the one attached to the commercial kit. Thirtyfive cycles of PCR were performed under the following conditions: 94°C for 45 seconds, 58°C for 45 seconds and 72°C for 2 minutes. Finally, elongation reaction was carried out at 72°C for 7 minutes.

TABLE 11
__________________________________________________________________________
Primer
Nucleotide sequence
__________________________________________________________________________
P1 primer
5'-GATTTGTGCTCAATAATCACTATCTGAA-3'
(Seq Id No:94)
- P2 primer   5'-GGTTACTAGGATCACAAAGTATGAATTCTGGAA-3' (Seq Id No:95)
__________________________________________________________________________

Several of the 5' RACE clones obtained from the above PCR were sequenced and the base sequence of that cDNA clone showing overlapping between the 5' RACE clones and the GEN-077A09 clone was determined to thereby reveal the sequence regarded as covering the entire coding region. This was named GSPT1-related protein "GSPT1-TK gene".

The GSPT1-TK gene was found to contain an open reading frame of 1,497 nucleotides, as shown under SEQ ID NO:41. The amino acid sequence deduced therefrom contained 499 amino acid residues, as shown under SEQ ID NO:40.

The nucleotide sequence of the whole cDNA clone of the GSPT1-TK gene was found to comprise 2,057 nucleotides, as shown under SEQ ID NO:42, and the molecular weight was calculated at 55,740 daltons.

The first methionine code (ATG) in the open reading frame had no in-frame termination codon but this ATG was surrounded by a sequence similar to the Kozak consensus sequence for translational initiation. Therefore, it was concluded that this ATG triplet occurring in positions 144-146 of the relevant sequence is the initiation codon.

Furthermore, a polyadenylation signal, AATAAA, was observed 13 nucleotides upstream from the polyadenylation site.

Human GSPT1-TK contains a glutamic acid rich region near the N terminus, and 18 of 20 glutamic acid residues occurring in this region of human GSPT1-TK are conserved and align perfectly with those of the human GSPT1 protein. Several regions (G1, G2, G3, G4 and G5) of GTP-binding proteins that are responsible for guanine nucleotide binding and hydrolysis were found conserved in the GSPT1-TK protein just as in the human GSPT1 protein.

Thus, the DNA sequence of human GSPT1-TK was found 89.4% identical, and the amino acid sequence deduced therefrom 92.4% identical, with the corresponding sequence of human GSPT1 which supposedly plays an important role in the G1 to S phase transition in the cell cycle. Said amino acid sequence showed 50.8% identity with that of yeast GST1.

(2) Northern Blot Analysis

Northern blot analysis was carried out as described in Example 1 (2). Thus, the GEN-077A09 cDNA clone was amplified by PCR, the PCR product was purified and labeled with [³2 P]-dCTP (random-primed DNA labeling kit, Boehringer Mannheim), and normal human tissues were examined for the expression of GSPT1-TK mRNA therein using an MTN blot with the labeled product as a probe.

As a result of the Northern blot analysis, a 2.7 kb major transcript was detected in various tissues. The level of human GSPT1-TK expression seemed highest in brain and in testis.

(3) Chromosome Mapping of GSPT1-TK Gene by FISH

Chromosome mapping of the GSPTl-TK gene was performed by FISH as described in Example 1 (3).

As a result, it was found that the GSPT1-TK gene is-localized at the chromosomal locus 19p13.3. In this chromosomal localization site, reciprocal location has been observed very frequently in cases of acute lymphocytic leukemia (ALL) and acute myeloid leukemia (AML). In addition, it is reported that acute non-lymphocytic leukemia (ANLL) is associated with re-arrangements involving the human GSPT1 region [Ozawa, K., Murakami, Y., Eki, T., Yokoyama, K., Soeda, E., Hoshino, S., Ui, M. and Hanaoka, F., Somatic Cell and Molecular Genet., 18, 189-194 (1992)].

In view of the above, it is suggested that this gene is the best candidate gene associated with ALL and AML.

In accordance with the present invention, the novel human GSPT1-TK gene is provided and the use of said gene makes it possible to detect the expression of said gene in various tissues and produce the human GSPT1-TK protein by the technology of genetic engineering. These can be used in the studies of cell proliferation, as mentioned above, and further make it possible to diagnose various diseases associated with the chromosomal locus of this gene, for example acute myelocytic leukemia. This is because translocation of this gene may result in decomposition of the GSPT1-TK gene and further some or other fused protein expressed upon said translocation may cause such diseases.

Furthermore, it is expected that diagnosis and treatment of said diseases can be made possible by producing antibodies to such fused protein, revealing the intracellular localization of said protein and examining its expression specific to said diseases. Therefore, it is also expected that the use of the gene of the present invention makes it possible to screen out and evaluate drugs for the treatment and prevention of said diseases.

__________________________________________________________________________
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678
Gly Gln Ser Pro Arg Arg Gly Thr Val Met Ty - #r Val Gly Leu Thr Asp
120                 1 - #25                 1 - #30                 1 -
#35
- - ttc aag cct ggc tac tgg att ggt gtc cgc ta - #t gat gag cca ctg
ggg      726
Phe Lys Pro Gly Tyr Trp Ile Gly Val Arg Ty - #r Asp Glu Pro Leu Gly
140  - #               145  - #               150
- - aaa aat gat ggc agt gtg aat ggg aaa cgc ta - #c ttc gaa tgc cag gcc
774
Lys Asn Asp Gly Ser Val Asn Gly Lys Arg Ty - #r Phe Glu Cys Gln Ala
155      - #           160      - #           165
- - aag tat ggc gcc ttt gtc aag cca gca gtc gt - #g acg gtg ggg gac ttc
822
Lys Tyr Gly Ala Phe Val Lys Pro Ala Val Va - #l Thr Val Gly Asp Phe
170          - #       175          - #       180
- - ccg gag gag gac tac ggg ttg gac gag ata tg - #acacctaa ggaattcccc
872
Pro Glu Glu Asp Tyr Gly Leu Asp Glu Ile
185              - #   190
- - tgcttcagct cctagctcag ccactgactg cccctcctgt gtgtgcccat gg -
#cccttttc    932
- - tcctgacccc attttaattt tattcatttt ttcctttgcc attgattttt ga -
#gactcatg    992
- - cattaaattc actagaaacc cag           - #                  - #
1015
- -  - - <210> SEQ ID NO 7
<211> LENGTH: 128
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 7
- - Met Thr Glu Ala Asp Val Asn Pro Lys Ala Ty - #r Pro Leu Ala Asp Ala
1               5 - #                 10 - #                 15
- - His Leu Thr Lys Lys Leu Leu Asp Leu Val Gl - #n Gln Ser Cys Asn Tyr
20     - #             25     - #             30
- - Lys Gln Leu Arg Lys Gly Ala Asn Glu Ala Th - #r Lys Thr Leu Asn Arg
35         - #         40         - #         45
- - Gly Ile Ser Glu Phe Ile Val Met Ala Ala As - #p Ala Glu Pro Leu Glu
50             - #     55             - #     60
- - Ile Ile Leu His Leu Pro Leu Leu Cys Glu As - #p Lys Asn Val Pro Tyr
65                 - # 70                 - # 75                 - # 80
- - Val Phe Val Arg Ser Lys Gln Ala Leu Gly Ar - #g Ala Cys Gly Val Ser
85 - #                 90 - #                 95
- - Arg Pro Val Ile Ala Cys Ser Val Thr Ile Ly - #s Glu Gly Ser Gln Leu
100      - #           105      - #           110
- - Lys Gln Gln Ile Gln Ser Ile Gln Gln Ser Il - #e Glu Arg Leu Leu Val
115          - #       120          - #       125
- -  - - <210> SEQ ID NO 8
<211> LENGTH: 384
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 8
- - atgactgagg ctgatgtgaa tccaaaggcc tatccccttg ccgatgccca cc -
#tcaccaag     60
- - aagctactgg acctcgttca gcagtcatgt aactataagc agcttcggaa ag -
#gagccaat    120
- - gaggccacca aaaccctcaa caggggcatc tctgagttca tcgtgatggc tg -
#cagacgcc    180
- - gagccactgg agatcattct gcacctgccg ctgctgtgtg aagacaagaa tg -
#tgccctac    240
- - gtgtttgtgc gctccaagca ggccctgggg agagcctgtg gggtctccag gc -
#ctgtcatc    300
- - gcctgttctg tcaccatcaa agaaggctcg cagctgaaac agcagatcca at -
#ccattcag    360
- - cagtccattg aaaggctctt agtc          - #                  - #
384
- -  - - <210> SEQ ID NO 9
<211> LENGTH: 1493
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (95)..(478)
- - <400> SEQUENCE: 9
- - atccgtgtcc ttgcggtgct gggcagcaga ccgtccaaac cgacacgcgt gg -
#tatcctcg     60
- - cggtgtccgg caagagacta ccaagacaga cgct atg act gag g - #ct gat gtg
aat    115
- #                  - #  Met Thr Glu Ala Asp Val Asn
- #                  - #    1              - # 5
- - cca aag gcc tat ccc ctt gcc gat gcc cac ct - #c acc aag aag cta ctg
163
Pro Lys Ala Tyr Pro Leu Ala Asp Ala His Le - #u Thr Lys Lys Leu Leu
10         - #         15         - #         20
- - gac ctc gtt cag cag tca tgt aac tat aag ca - #g ctt cgg aaa gga gcc
211
Asp Leu Val Gln Gln Ser Cys Asn Tyr Lys Gl - #n Leu Arg Lys Gly Ala
25             - #     30             - #     35
- - aat gag gcc acc aaa acc ctc aac agg ggc at - #c tct gag ttc atc gtg
259
Asn Glu Ala Thr Lys Thr Leu Asn Arg Gly Il - #e Ser Glu Phe Ile Val
40                 - # 45                 - # 50                 - # 55
- - atg gct gca gac gcc gag cca ctg gag atc at - #t ctg cac ctg ccg ctg
307
Met Ala Ala Asp Ala Glu Pro Leu Glu Ile Il - #e Leu His Leu Pro Leu
60 - #                 65 - #                 70
- - ctg tgt gaa gac aag aat gtg ccc tac gtg tt - #t gtg cgc tcc aag cag
355
Leu Cys Glu Asp Lys Asn Val Pro Tyr Val Ph - #e Val Arg Ser Lys Gln
75     - #             80     - #             85
- - gcc ctg ggg aga gcc tgt ggg gtc tcc agg cc - #t gtc atc gcc tgt tct
403
Ala Leu Gly Arg Ala Cys Gly Val Ser Arg Pr - #o Val Ile Ala Cys Ser
90         - #         95         - #        100
- - gtc acc atc aaa gaa ggc tcg cag ctg aaa ca - #g cag atc caa tcc att
451
Val Thr Ile Lys Glu Gly Ser Gln Leu Lys Gl - #n Gln Ile Gln Ser Ile
105              - #   110              - #   115
- - cag cag tcc att gaa agg ctc tta gtc taaacctgt - #g gcctctgcca
498
Gln Gln Ser Ile Glu Arg Leu Leu Val
120                 1 - #25
- - cgtgctccct gccagcttcc cccctgaggt tgtgtatcat attatctgtg tt -
#agcatgta    558
- - gtattttcag ctactctcta ttgttataaa atgtagtact aaatctggtt tc -
#tggatttt    618
- - tgtgttgttt ttgttctgtt ttacagggtt gctatccccc ttcctttcct cc -
#ctccctct    678
- - gccatccttc atccttttat cctccctttt tggaacaagt gttcagagca ga -
#cagaagca    738
- - gggtggtggc accgttgaaa ggcagaaaga gccaggagaa agctgatgga gc -
#caggacag    798
- - agatctggtt ccagctttca gccactagct tcctgttgtg tgcggggtgt gg -
#tggaatta    858
- - aacagcattc attgtgtgtc cctgtgcctg gcacacagaa tcattcatac gt -
#gttcaagt    918
- - gatcaagggg tttcatttgc tcttggggga ttaggtatca tttggggagg aa -
#gcatgtgt    978
- - tctgtgaggt tgttcggcta tgtccaagtg tcgtttacta atgtacccct gc -
#tgtttgct   1038
- - tttggtaatg tgatgttgat gttctccccc tacccacaac catgcccttg ag -
#ggtagcag   1098
- - ggcagcagca taccaaagag atgtgctgca ggactccgga ggcagcctgg gt -
#gggtgagc   1158
- - catggggcag ttgacctggg tcttgaaaga gtcgggagtg acaagctcag ag -
#agcatgaa   1218
- - ctgatgctgg catgaaggat tccaggaaga tcatggagac ctggctggta gc -
#tgtaacag   1278
- - agatggtgga gtccaaggaa acagcctgtc tctggtgaat gggactttct tt -
#ggtggaca   1338
- - cttggcacca gctctgagag cccttcccct gtgtcctgcc accatgtggg tc -
#agatgtac   1398
- - tctctgtcac atgaggagag tgctagttca tgtgttctcc attcttgtga gc -
#atcctaat   1458
- - aaatctgttc cattttgaaa aaaaaaaaaa aaaaa       - #
- #     1493
- -  - - <210> SEQ ID NO 10
<211> LENGTH: 711
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 10
- - Met Pro Ala Asp Val Asn Leu Ser Gln Lys Pr - #o Gln Val Leu Gly
Pro
1               5 - #                 10 - #                 15
- - Glu Lys Gln Asp Gly Ser Cys Glu Ala Ser Va - #l Ser Phe Glu Asp Val
20     - #             25     - #             30
- - Thr Val Asp Phe Ser Arg Glu Glu Trp Gln Gl - #n Leu Asp Pro Ala Gln
35         - #         40         - #         45
- - Arg Cys Leu Tyr Arg Asp Val Met Leu Glu Le - #u Tyr Ser His Leu Phe
50             - #     55             - #     60
- - Ala Val Gly Tyr His Ile Pro Asn Pro Glu Va - #l Ile Phe Arg Met Leu
65                 - # 70                 - # 75                 - # 80
- - Lys Glu Lys Glu Pro Arg Val Glu Glu Ala Gl - #u Val Ser His Gln Arg
85 - #                 90 - #                 95
- - Cys Gln Glu Arg Glu Phe Gly Leu Glu Ile Pr - #o Gln Lys Glu Ile Ser
100      - #           105      - #           110
- - Lys Lys Ala Ser Phe Gln Lys Asp Met Val Gl - #y Glu Phe Thr Arg Asp
115          - #       120          - #       125
- - Gly Ser Trp Cys Ser Ile Leu Glu Glu Leu Ar - #g Leu Asp Ala Asp Arg
130              - #   135              - #   140
- - Thr Lys Lys Asp Glu Gln Asn Gln Ile Gln Pr - #o Met Ser His Ser Ala
145                 1 - #50                 1 - #55                 1 -
#60
- - Phe Phe Asn Lys Lys Thr Leu Asn Thr Glu Se - #r Asn Cys Glu Tyr
Lys
165  - #               170  - #               175
- - Asp Pro Gly Lys Met Ile Arg Thr Arg Pro Hi - #s Leu Ala Ser Ser Gln
180      - #           185      - #           190
- - Lys Gln Pro Gln Lys Cys Cys Leu Phe Thr Gl - #u Ser Leu Lys Leu Asn
195          - #       200          - #       205
- - Leu Glu Val Asn Gly Gln Asn Glu Ser Asn As - #p Thr Glu Gln Leu Asp
210              - #   215              - #   220
- - Asp Val Val Gly Ser Gly Gln Leu Phe Ser Hi - #s Ser Ser Ser Asp Ala
225                 2 - #30                 2 - #35                 2 -
#40
- - Cys Ser Lys Asn Ile His Thr Gly Glu Thr Ph - #e Cys Lys Gly Asn
Gln
245  - #               250  - #               255
- - Cys Arg Lys Val Cys Gly His Lys Gln Ser Le - #u Lys Gln His Gln Ile
260      - #           265      - #           270
- - His Thr Gln Lys Lys Pro Asp Gly Cys Ser Gl - #u Cys Gly Gly Ser Phe
275          - #       280          - #       285
- - Thr Gln Lys Ser His Leu Phe Ala Gln Gln Ar - #g Ile His Ser Val Gly
290              - #   295              - #   300
- - Asn Leu His Glu Cys Gly Lys Cys Gly Lys Al - #a Phe Met Pro Gln Leu
305                 3 - #10                 3 - #15                 3 -
#20
- - Lys Leu Ser Val Tyr Leu Thr Asp His Thr Gl - #y Asp Ile Pro Cys
Ile
325  - #               330  - #               335
- - Cys Lys Glu Cys Gly Lys Val Phe Ile Gln Ar - #g Ser Glu Leu Leu Thr
340      - #           345      - #           350
- - His Gln Lys Thr His Thr Arg Lys Lys Pro Ty - #r Lys Cys His Asp Cys
355          - #       360          - #       365
- - Gly Lys Ala Phe Phe Gln Met Leu Ser Leu Ph - #e Arg His Gln Arg Thr
370              - #   375              - #   380
- - His Ser Arg Glu Lys Leu Tyr Glu Cys Ser Gl - #u Cys Gly Lys Gly Phe
385                 3 - #90                 3 - #95                 4 -
#00
- - Ser Gln Asn Ser Thr Leu Ile Ile His Gln Ly - #s Ile His Thr Gly
Glu
405  - #               410  - #               415
- - Arg Gln Tyr Ala Cys Ser Glu Cys Gly Lys Al - #a Phe Thr Gln Lys Ser
420      - #           425      - #           430
- - Thr Leu Ser Leu His Gln Arg Ile His Ser Gl - #y Gln Lys Ser Tyr Val
435          - #       440          - #       445
- - Cys Ile Glu Cys Gly Gln Ala Phe Ile Gln Ly - #s Ala His Leu Ile Val
450              - #   455              - #   460
- - His Gln Arg Ser His Thr Gly Glu Lys Pro Ty - #r Gln Cys His Asn Cys
465                 4 - #70                 4 - #75                 4 -
#80
- - Gly Lys Ser Phe Ile Ser Lys Ser Gln Leu As - #p Ile His His Arg
Ile
485  - #               490  - #               495
- - His Thr Gly Glu Lys Pro Tyr Glu Cys Ser As - #p Cys Gly Lys Thr Phe
500      - #           505      - #           510
- - Thr Gln Lys Ser His Leu Asn Ile His Gln Ly - #s Ile His Thr Gly Glu
515          - #       520          - #       525
- - Arg His His Val Cys Ser Glu Cys Gly Lys Al - #a Phe Asn Gln Lys Ser
530              - #   535              - #   540
- - Ile Leu Ser Met His Gln Arg Ile His Thr Gl - #y Glu Lys Pro Tyr Lys
545                 5 - #50                 5 - #55                 5 -
#60
- - Cys Ser Glu Cys Gly Lys Ala Phe Thr Ser Ly - #s Ser Gln Phe Lys
Glu
565  - #               570  - #               575
- - His Gln Arg Ile His Thr Gly Glu Lys Pro Ty - #r Val Cys Thr Glu Cys
580      - #           585      - #           590
- - Gly Lys Ala Phe Asn Gly Arg Ser Asn Phe Hi - #s Lys His Gln Ile Thr
595          - #       600          - #       605
- - His Thr Arg Glu Arg Pro Phe Val Cys Tyr Ly - #s Cys Gly Lys Ala Phe
610              - #   615              - #   620
- - Val Gln Lys Ser Glu Leu Ile Thr His Gln Ar - #g Thr His Met Gly Glu
625                 6 - #30                 6 - #35                 6 -
#40
- - Lys Pro Tyr Glu Cys Leu Asp Cys Gly Lys Se - #r Phe Ser Lys Lys
Pro
645  - #               650  - #               655
- - Gln Leu Lys Val His Gln Arg Ile His Thr Gl - #y Glu Arg Pro Tyr Val
660      - #           665      - #           670
- - Cys Ser Glu Cys Gly Lys Ala Phe Asn Asn Ar - #g Ser Asn Phe Asn Lys
675          - #       680          - #       685
- - His Gln Thr Thr His Thr Arg Asp Lys Ser Ty - #r Lys Cys Ser Tyr Ser
690              - #   695              - #   700
- - Val Lys Gly Phe Thr Lys Gln
705                 7 - #10
- -  - - <210> SEQ ID NO 11
<211> LENGTH: 2133
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 11
- - atgcctgctg atgtgaattt atcccagaag cctcaggtcc tgggtccaga ga -
#agcaggat     60
- - ggatcttgcg aggcatcagt gtcatttgag gacgtgaccg tggacttcag ca -
#gggaggag    120
- - tggcagcaac tggaccctgc ccagagatgc ctgtaccggg atgtgatgct gg -
#agctctat    180
- - agccatctct tcgcagtggg gtatcacatt cccaacccag aggtcatctt ca -
#gaatgcta    240
- - aaagaaaagg agccgcgtgt ggaggaggct gaagtctcac atcagaggtg tc -
#aagaaagg    300
- - gagtttgggc ttgaaatccc acaaaaggag atttctaaga aagcttcatt tc -
#aaaaggat    360
- - atggtaggtg agttcacaag agatggttca tggtgttcca ttttagaaga ac -
#tgaggctg    420
- - gatgctgacc gcacaaagaa agatgagcaa aatcaaattc aacccatgag tc -
#acagtgct    480
- - ttcttcaaca agaaaacatt gaacacagaa agcaattgtg aatataagga cc -
#ctgggaaa    540
- - atgattcgca cgaggcccca ccttgcttct tcacagaaac aacctcagaa at -
#gttgctta    600
- - tttacagaaa gtttgaagct gaacctagaa gtgaacggtc agaatgaaag ca -
#atgacaca    660
- - gaacagcttg atgacgttgt tgggtctggt cagctattca gccatagctc tt -
#ctgatgcc    720
- - tgcagcaaga atattcatac aggagagaca ttttgcaaag gtaaccagtg ta -
#gaaaagtc    780
- - tgtggccata aacagtcact caagcaacat caaattcata ctcagaagaa ac -
#cagatgga    840
- - tgttctgaat gtggggggag cttcacccag aagtcacacc tctttgccca ac -
#agagaatt    900
- - catagtgtag gaaacctcca tgaatgtggc aaatgtggaa aagccttcat gc -
#cacaacta    960
- - aaactcagtg tatatctgac agatcataca ggtgatatac cctgtatatg ca -
#aggaatgt   1020
- - gggaaggtct ttattcagag atcagaattg cttacgcacc agaaaacaca ca -
#ctagaaag   1080
- - aagccctata aatgccatga ctgtggaaaa gcctttttcc agatgttatc tc -
#tcttcaga   1140
- - catcagagaa ctcacagtag agaaaaactc tatgaatgca gtgaatgtgg ca -
#aaggcttc   1200
- - tcccaaaact caaccctcat tatacatcag aaaattcata ctggtgagag ac -
#agtatgca   1260
- - tgcagtgaat gtgggaaagc ctttacccag aagtcaacac tcagcttgca cc -
#agagaatc   1320
- - cactcagggc agaagtccta tgtgtgtatc gaatgcgggc aggccttcat cc -
#agaaggca   1380
- - cacctgattg tccatcaaag aagccacaca ggagaaaaac cttatcagtg cc -
#acaactgt   1440
- - gggaaatcct tcatttccaa gtcacagctt gatatacatc atcgaattca ta -
#caggggag   1500
- - aaaccttatg aatgcagtga ctgtggaaaa accttcaccc aaaagtcaca cc -
#tgaatata   1560
- - caccagaaaa ttcatactgg agaaagacac catgtatgca gtgaatgcgg ga -
#aagccttc   1620
- - aaccagaagt caatactcag catgcatcag agaattcaca ccggagagaa gc -
#cttacaaa   1680
- - tgcagtgaat gtgggaaagc cttcacttct aagtctcaat tcaaagagca tc -
#agcgaatt   1740
- - cacacgggtg agaaacccta tgtgtgcact gaatgtggga aggccttcaa cg -
#gcaggtca   1800
- - aatttccata aacatcaaat aactcacact agagagaggc cttttgtctg tt -
#acaaatgt   1860
- - gggaaggctt ttgtccagaa atcagagttg attacccatc aaagaactca ca -
#tgggagag   1920
- - aaaccctatg aatgccttga ctgtgggaaa tcgttcagta agaaaccaca ac -
#tcaaggtg   1980
- - catcagcgaa ttcacacggg agaaagacct tatgtgtgtt ctgaatgtgg aa -
#aggccttc   2040
- - aacaacaggt caaacttcaa taaacaccaa acaactcata ccagagacaa at -
#cttacaaa   2100
- - tgcagttatt ctgtgaaagg ctttaccaag caa       - #                  -
#       2133
- -  - - <210> SEQ ID NO 12
<211> LENGTH: 3754
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (346)..(2478)
- - <400> SEQUENCE: 12
- - gctaagccta tgtcgcttac tggacgctga agtgattggg aatattagca gt -
#gggggttc     60
- - tgtagggtca ggaaggggcg gctggctttg ggggagtgat gaggggcttg tt -
#gggggtgg    120
- - gggtgcgtga taaagggatt tctcggctga agacgaggct gtgaggcttc tg -
#cagaaccc    180
- - ccaggtcagg ccacatcatt gaggctgcag gatctctctt catagcccag ta -
#cgactctc    240
- - cgccgtgtcc ctggttggaa aatccaaaca cctatccagc ttctggctcc tg -
#ggaaaagt    300
- - ggagttgtca gcaagagaga ccgagagtag aagcccagag tggag atg - #cct gct
gat    357
- #                  - #              Met Pro A - #la
Asp
- #                  - #                1
- - gtg aat tta tcc cag aag cct cag gtc ctg gg - #t cca gag aag cag gat
405
Val Asn Leu Ser Gln Lys Pro Gln Val Leu Gl - #y Pro Glu Lys Gln Asp
5                - #  10                - #  15                - #  20
- - gga tct tgc gag gca tca gtg tca ttt gag ga - #c gtg acc gtg gac ttc
453
Gly Ser Cys Glu Ala Ser Val Ser Phe Glu As - #p Val Thr Val Asp Phe
25 - #                 30 - #                 35
- - agc agg gag gag tgg cag caa ctg gac cct gc - #c cag aga tgc ctg tac
501
Ser Arg Glu Glu Trp Gln Gln Leu Asp Pro Al - #a Gln Arg Cys Leu Tyr
40     - #             45     - #             50
- - cgg gat gtg atg ctg gag ctc tat agc cat ct - #c ttc gca gtg ggg tat
549
Arg Asp Val Met Leu Glu Leu Tyr Ser His Le - #u Phe Ala Val Gly Tyr
55         - #         60         - #         65
- - cac att ccc aac cca gag gtc atc ttc aga at - #g cta aaa gaa aag gag
597
His Ile Pro Asn Pro Glu Val Ile Phe Arg Me - #t Leu Lys Glu Lys Glu
70             - #     75             - #     80
- - ccg cgt gtg gag gag gct gaa gtc tca cat ca - #g agg tgt caa gaa agg
645
Pro Arg Val Glu Glu Ala Glu Val Ser His Gl - #n Arg Cys Gln Glu Arg
85                 - # 90                 - # 95                 - #100
- - gag ttt ggg ctt gaa atc cca caa aag gag at - #t tct aag aaa gct tca
693
Glu Phe Gly Leu Glu Ile Pro Gln Lys Glu Il - #e Ser Lys Lys Ala Ser
105  - #               110  - #               115
- - ttt caa aag gat atg gta ggt gag ttc aca ag - #a gat ggt tca tgg tgt
741
Phe Gln Lys Asp Met Val Gly Glu Phe Thr Ar - #g Asp Gly Ser Trp Cys
120      - #           125      - #           130
- - tcc att tta gaa gaa ctg agg ctg gat gct ga - #c cgc aca aag aaa gat
789
Ser Ile Leu Glu Glu Leu Arg Leu Asp Ala As - #p Arg Thr Lys Lys Asp
135          - #       140          - #       145
- - gag caa aat caa att caa ccc atg agt cac ag - #t gct ttc ttc aac aag
837
Glu Gln Asn Gln Ile Gln Pro Met Ser His Se - #r Ala Phe Phe Asn Lys
150              - #   155              - #   160
- - aaa aca ttg aac aca gaa agc aat tgt gaa ta - #t aag gac cct ggg aaa
885
Lys Thr Leu Asn Thr Glu Ser Asn Cys Glu Ty - #r Lys Asp Pro Gly Lys
165                 1 - #70                 1 - #75                 1 -
#80
- - atg att cgc acg agg ccc cac ctt gct tct tc - #a cag aaa caa cct
cag      933
Met Ile Arg Thr Arg Pro His Leu Ala Ser Se - #r Gln Lys Gln Pro Gln
185  - #               190  - #               195
- - aaa tgt tgc tta ttt aca gaa agt ttg aag ct - #g aac cta gaa gtg aac
981
Lys Cys Cys Leu Phe Thr Glu Ser Leu Lys Le - #u Asn Leu Glu Val Asn
200      - #           205      - #           210
- - ggt cag aat gaa agc aat gac aca gaa cag ct - #t gat gac gtt gtt ggg
1029
Gly Gln Asn Glu Ser Asn Asp Thr Glu Gln Le - #u Asp Asp Val Val Gly
215          - #       220          - #       225
- - tct ggt cag cta ttc agc cat agc tct tct ga - #t gcc tgc agc aag aat
1077
Ser Gly Gln Leu Phe Ser His Ser Ser Ser As - #p Ala Cys Ser Lys Asn
230              - #   235              - #   240
- - att cat aca gga gag aca ttt tgc aaa ggt aa - #c cag tgt aga aaa gtc
1125
Ile His Thr Gly Glu Thr Phe Cys Lys Gly As - #n Gln Cys Arg Lys Val
245                 2 - #50                 2 - #55                 2 -
#60
- - tgt ggc cat aaa cag tca ctc aag caa cat ca - #a att cat act cag
aag     1173
Cys Gly His Lys Gln Ser Leu Lys Gln His Gl - #n Ile His Thr Gln Lys
265  - #               270  - #               275
- - aaa cca gat gga tgt tct gaa tgt ggg ggg ag - #c ttc acc cag aag tca
1221
Lys Pro Asp Gly Cys Ser Glu Cys Gly Gly Se - #r Phe Thr Gln Lys Ser
280      - #           285      - #           290
- - cac ctc ttt gcc caa cag aga att cat agt gt - #a gga aac ctc cat gaa
1269
His Leu Phe Ala Gln Gln Arg Ile His Ser Va - #l Gly Asn Leu His Glu
295          - #       300          - #       305
- - tgt ggc aaa tgt gga aaa gcc ttc atg cca ca - #a cta aaa ctc agt gta
1317
Cys Gly Lys Cys Gly Lys Ala Phe Met Pro Gl - #n Leu Lys Leu Ser Val
310              - #   315              - #   320
- - tat ctg aca gat cat aca ggt gat ata ccc tg - #t ata tgc aag gaa tgt
1365
Tyr Leu Thr Asp His Thr Gly Asp Ile Pro Cy - #s Ile Cys Lys Glu Cys
325                 3 - #30                 3 - #35                 3 -
#40
- - ggg aag gtc ttt att cag aga tca gaa ttg ct - #t acg cac cag aaa
aca     1413
Gly Lys Val Phe Ile Gln Arg Ser Glu Leu Le - #u Thr His Gln Lys Thr
345  - #               350  - #               355
- - cac act aga aag aag ccc tat aaa tgc cat ga - #c tgt gga aaa gcc ttt
1461
His Thr Arg Lys Lys Pro Tyr Lys Cys His As - #p Cys Gly Lys Ala Phe
360      - #           365      - #           370
- - ttc cag atg tta tct ctc ttc aga cat cag ag - #a act cac agt aga gaa
1509
Phe Gln Met Leu Ser Leu Phe Arg His Gln Ar - #g Thr His Ser Arg Glu
375          - #       380          - #       385
- - aaa ctc tat gaa tgc agt gaa tgt ggc aaa gg - #c ttc tcc caa aac tca
1557
Lys Leu Tyr Glu Cys Ser Glu Cys Gly Lys Gl - #y Phe Ser Gln Asn Ser
390              - #   395              - #   400
- - acc ctc att ata cat cag aaa att cat act gg - #t gag aga cag tat gca
1605
Thr Leu Ile Ile His Gln Lys Ile His Thr Gl - #y Glu Arg Gln Tyr Ala
405                 4 - #10                 4 - #15                 4 -
#20
- - tgc agt gaa tgt ggg aaa gcc ttt acc cag aa - #g tca aca ctc agc
ttg     1653
Cys Ser Glu Cys Gly Lys Ala Phe Thr Gln Ly - #s Ser Thr Leu Ser Leu
425  - #               430  - #               435
- - cac cag aga atc cac tca ggg cag aag tcc ta - #t gtg tgt atc gaa tgc
1701
His Gln Arg Ile His Ser Gly Gln Lys Ser Ty - #r Val Cys Ile Glu Cys
440      - #           445      - #           450
- - ggg cag gcc ttc atc cag aag gca cac ctg at - #t gtc cat caa aga agc
1749
Gly Gln Ala Phe Ile Gln Lys Ala His Leu Il - #e Val His Gln Arg Ser
455          - #       460          - #       465
- - cac aca gga gaa aaa cct tat cag tgc cac aa - #c tgt ggg aaa tcc ttc
1797
His Thr Gly Glu Lys Pro Tyr Gln Cys His As - #n Cys Gly Lys Ser Phe
470              - #   475              - #   480
- - att tcc aag tca cag ctt gat ata cat cat cg - #a att cat aca ggg gag
1845
Ile Ser Lys Ser Gln Leu Asp Ile His His Ar - #g Ile His Thr Gly Glu
485                 4 - #90                 4 - #95                 5 -
#00
- - aaa cct tat gaa tgc agt gac tgt gga aaa ac - #c ttc acc caa aag
tca     1893
Lys Pro Tyr Glu Cys Ser Asp Cys Gly Lys Th - #r Phe Thr Gln Lys Ser
505  - #               510  - #               515
- - cac ctg aat ata cac cag aaa att cat act gg - #a gaa aga cac cat gta
1941
His Leu Asn Ile His Gln Lys Ile His Thr Gl - #y Glu Arg His His Val
520      - #           525      - #           530
- - tgc agt gaa tgc ggg aaa gcc ttc aac cag aa - #g tca ata ctc agc atg
1989
Cys Ser Glu Cys Gly Lys Ala Phe Asn Gln Ly - #s Ser Ile Leu Ser Met
535          - #       540          - #       545
- - cat cag aga att cac acc gga gag aag cct ta - #c aaa tgc agt gaa tgt
2037
His Gln Arg Ile His Thr Gly Glu Lys Pro Ty - #r Lys Cys Ser Glu Cys
550              - #   555              - #   560
- - ggg aaa gcc ttc act tct aag tct caa ttc aa - #a gag cat cag cga att
2085
Gly Lys Ala Phe Thr Ser Lys Ser Gln Phe Ly - #s Glu His Gln Arg Ile
565                 5 - #70                 5 - #75                 5 -
#80
- - cac acg ggt gag aaa ccc tat gtg tgc act ga - #a tgt ggg aag gcc
ttc     2133
His Thr Gly Glu Lys Pro Tyr Val Cys Thr Gl - #u Cys Gly Lys Ala Phe
585  - #               590  - #               595
- - aac ggc agg tca aat ttc cat aaa cat caa at - #a act cac act aga gag
2181
Asn Gly Arg Ser Asn Phe His Lys His Gln Il - #e Thr His Thr Arg Glu
600      - #           605      - #           610
- - agg cct ttt gtc tgt tac aaa tgt ggg aag gc - #t ttt gtc cag aaa tca
2229
Arg Pro Phe Val Cys Tyr Lys Cys Gly Lys Al - #a Phe Val Gln Lys Ser
615          - #       620          - #       625
- - gag ttg att acc cat caa aga act cac atg gg - #a gag aaa ccc tat gaa
2277
Glu Leu Ile Thr His Gln Arg Thr His Met Gl - #y Glu Lys Pro Tyr Glu
630              - #   635              - #   640
- - tgc ctt gac tgt ggg aaa tcg ttc agt aag aa - #a cca caa ctc aag gtg
2325
Cys Leu Asp Cys Gly Lys Ser Phe Ser Lys Ly - #s Pro Gln Leu Lys Val
645                 6 - #50                 6 - #55                 6 -
#60
- - cat cag cga att cac acg gga gaa aga cct ta - #t gtg tgt tct gaa
tgt     2373
His Gln Arg Ile His Thr Gly Glu Arg Pro Ty - #r Val Cys Ser Glu Cys
665  - #               670  - #               675
- - gga aag gcc ttc aac aac agg tca aac ttc aa - #t aaa cac caa aca act
2421
Gly Lys Ala Phe Asn Asn Arg Ser Asn Phe As - #n Lys His Gln Thr Thr
680      - #           685      - #           690
- - cat acc aga gac aaa tct tac aaa tgc agt ta - #t tct gtg aaa ggc ttt
2469
His Thr Arg Asp Lys Ser Tyr Lys Cys Ser Ty - #r Ser Val Lys Gly Phe
695          - #       700          - #       705
- - acc aag caa tgaattccta gtgcatcagc atattcataa atgaaatat - #a
2518
Thr Lys Gln
710
- - ctccgagttt cttgaagaag agaacatctt ctcagaatca ggtctaatta ta -
#tgttattg   2578
- - aattcatgct tcagaaaaac tctagggatg cactgcatgt gtgaacacat ga -
#taaaaaag   2638
- - tcatgcttta ttttagtgag ggcaattaca gagaaaagag taagcagaaa tg -
#tccttctg   2698
- - agtactggcc tcattaagga ttataaattt tctccccggg aagaaaccct ga -
#ctaacgca   2758
- - ttgagaaaag cctttctgta aagaatggta caagacaggt tgttactcga tt -
#atttatag   2818
- - taaaatatgt gggaaattat atcaatgata accctgttta ttgtgggata tc -
#aatatttt   2878
- - taaagtgcca acacagtcat gataggacaa tattttatgt gtgtgtgtgc gc -
#cttatgta   2938
- - tataagcata tatataatat ataagcatat tattatatac aggttgagta tc -
#ccttctcc   2998
- - aaaatgcctg ggatcagaag cattttggat ttcagatact tacagatttt gg -
#aatatttg   3058
- - cattatattt attggttgag catccctaat ctgaaaatcc aagattaaat gc -
#tccaatta   3118
- - gcatttcctt tgagcgtcat gttagagttc aaaaagtttc agattttggg tt -
#ttcagatt   3178
- - aggaataccc aacctgtatg tacgtatatt tctgtatcta tgtatgtata ta -
#tatgcata   3238
- - tgcagacata tgtatatggt ctggtcagca tatgtgtatg tatgcgtatg ta -
#tgtatgta   3298
- - tgtatgccct cagtgcagtg gggtttgctg cagaattcac tgcatagcag ga -
#gatgtaag   3358
- - cagatgagtt attttttaag agaatctaat ctaattgttt ttataaaaat ta -
#ttccctat   3418
- - tgaatattta tataatgagg ttgtatcaac aatgattaac tcctttatta ta -
#catacaca   3478
- - tgaatgtgca tttttggtaa atgcataaat gagattctat aatgtttact ga -
#tctttata   3538
- - ttacagattt tctcttcttt taggattagc tcagcttgcc ccccctttcc at -
#ctccacca   3598
- - tctatagtga gcctctccat aattagtgcc aaccattagt ctcgttcata tt -
#tttacacc   3658
- - aggagtcaac aaactgtgcc attggccaaa tatggcctcc caactgtttt tt -
#taaaataa   3718
- - agttttattg gaacacaaaa aaaaaaaaaa aaaaaa      - #
- #     3754
- -  - - <210> SEQ ID NO 13
<211> LENGTH: 389
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 13
- - Met Ala Asp Pro Arg Asp Lys Ala Leu Gln As - #p Tyr Arg Lys Lys
Leu
1               5 - #                 10 - #                 15
- - Leu Glu His Lys Glu Ile Asp Gly Arg Leu Ly - #s Glu Leu Arg Glu Gln
20     - #             25     - #             30
- - Leu Lys Glu Leu Thr Lys Gln Tyr Glu Lys Se - #r Glu Asn Asp Leu Lys
35         - #         40         - #         45
- - Ala Leu Gln Ser Val Gly Gln Ile Val Gly Gl - #u Val Leu Lys Gln Leu
50             - #     55             - #     60
- - Thr Glu Glu Lys Phe Ile Val Lys Ala Thr As - #n Gly Pro Arg Tyr Val
65                 - # 70                 - # 75                 - # 80
- - Val Gly Cys Arg Arg Gln Leu Asp Lys Ser Ly - #s Leu Lys Pro Gly Thr
85 - #                 90 - #                 95
- - Arg Val Ala Leu Asp Met Thr Thr Leu Thr Il - #e Met Arg Tyr Leu Pro
100      - #           105      - #           110
- - Arg Glu Val Asp Pro Leu Val Tyr Asn Met Se - #r His Glu Asp Pro Gly
115          - #       120          - #       125
- - Asn Val Ser Tyr Ser Glu Ile Gly Gly Leu Se - #r Glu Gln Ile Arg Glu
130              - #   135              - #   140
- - Leu Arg Glu Val Ile Glu Leu Pro Leu Thr As - #n Pro Glu Leu Phe Gln
145                 1 - #50                 1 - #55                 1 -
#60
- - Arg Val Gly Ile Ile Pro Pro Lys Gly Cys Le - #u Leu Tyr Gly Pro
Pro
165  - #               170  - #               175
- - Gly Thr Gly Lys Thr Leu Leu Ala Arg Ala Va - #l Ala Ser Gln Leu Asp
180      - #           185      - #           190
- - Cys Asn Phe Leu Lys Val Val Ser Ser Ser Il - #e Val Asp Lys Tyr Ile
195          - #       200          - #       205
- - Gly Glu Ser Ala Arg Leu Ile Arg Glu Met Ph - #e Asn Tyr Ala Arg Asp
210              - #   215              - #   220
- - His Gln Pro Cys Ile Ile Phe Met Asp Glu Il - #e Asp Ala Ile Gly Gly
225                 2 - #30                 2 - #35                 2 -
#40
- - Arg Arg Phe Ser Glu Gly Thr Ser Ala Asp Ar - #g Glu Ile Gln Arg
Thr
245  - #               250  - #               255
- - Leu Met Glu Leu Leu Asn Gln Met Asp Gly Ph - #e Asp Thr Leu His Arg
260      - #           265      - #           270
- - Val Lys Met Thr Met Ala Thr Asn Arg Pro As - #p Thr Leu Asp Pro Ala
275          - #       280          - #       285
- - Leu Leu Arg Pro Gly Arg Leu Asp Arg Lys Il - #e His Ile Asp Leu Pro
290              - #   295              - #   300
- - Asn Glu Gln Ala Arg Leu Asp Ile Leu Lys Il - #e His Ala Gly Pro Ile
305                 3 - #10                 3 - #15                 3 -
#20
- - Thr Lys His Gly Glu Ile Asp Tyr Glu Ala Il - #e Val Lys Leu Ser
Asp
325  - #               330  - #               335
- - Gly Phe Asn Gly Ala Asp Leu Arg Asn Val Cy - #s Thr Glu Ala Gly Met
340      - #           345      - #           350
- - Phe Ala Ile Arg Ala Asp His Asp Phe Val Va - #l Gln Glu Asp Phe Met
355          - #       360          - #       365
- - Lys Ala Val Arg Lys Val Ala Asp Ser Lys Ly - #s Leu Glu Ser Lys Leu
370              - #   375              - #   380
- - Asp Tyr Lys Pro Val
385
- -  - - <210> SEQ ID NO 14
<211> LENGTH: 1167
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 14
- - atggcggacc ctagagataa ggcgcttcag gactaccgca agaagttgct tg -
#aacacaag     60
- - gagatcgacg gccgtcttaa ggagttaagg gaacaattaa aagaacttac ca -
#agcagtat    120
- - gaaaagtctg aaaatgatct gaaggcccta cagagtgttg ggcagatcgt gg -
#gtgaagtg    180
- - cttaaacagt taactgaaga aaaattcatt gttaaagcta ccaatggacc aa -
#gatatgtt    240
- - gtgggttgtc gtcgacagct tgacaaaagt aagctgaagc caggaacaag ag -
#ttgctttg    300
- - gatatgacta cactaactat catgagatat ttgccgagag aggtggatcc ac -
#tggtttat    360
- - aacatgtctc atgaggaccc tgggaatgtt tcttattctg agattggagg gc -
#tatcagaa    420
- - cagatccggg aattaagaga ggtgatagaa ttacctctta caaacccaga gt -
#tatttcag    480
- - cgtgtaggaa taatacctcc aaaaggctgt ttgttatatg gaccaccagg ta -
#cgggaaaa    540
- - acactcttgg cacgagccgt tgctagccag ctggactgca atttcttaaa gg -
#ttgtatct    600
- - agttctattg tagacaagta cattggtgaa agtgctcgtt tgatcagaga aa -
#tgtttaat    660
- - tatgctagag atcatcaacc atgcatcatt tttatggatg aaatagatgc ta -
#ttggtggt    720
- - cgtcggtttt ctgagggtac ttcagctgac agagagattc agagaacgtt aa -
#tggagtta    780
- - ctgaatcaaa tggatggatt tgatactctg catagagtta aaatgaccat gg -
#ctacaaac    840
- - agaccagata cactggatcc tgctttgctg cgtccaggaa gattagatag aa -
#aaatacat    900
- - attgatttgc caaatgaaca agcaagatta gacatactga aaatccatgc ag -
#gtcccatt    960
- - acaaagcatg gtgaaataga ttatgaagca attgtgaagc tttcggatgg ct -
#ttaatgga   1020
- - gcagatctga gaaatgtttg tactgaagca ggtatgttcg caattcgtgc tg -
#atcatgat   1080
- - tttgtagtac aggaagactt catgaaagca gtcagaaaag tggctgattc ta -
#agaagctg   1140
- - gagtctaaat tggactacaa acctgtg          - #                  - #
1167
- -  - - <210> SEQ ID NO 15
<211> LENGTH: 1566
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (17)..(1183)
- - <400> SEQUENCE: 15
- - gagacggctt ctcatc atg gcg gac cct aga gat aag - #gcg ctt cag gac
tac     52
- #Met Ala Asp Pro Arg Asp Lys Ala Leu Gln A - #sp
Tyr
- #  1               5 - #                 10
- - cgc aag aag ttg ctt gaa cac aag gag atc ga - #c ggc cgt ctt aag gag
100
Arg Lys Lys Leu Leu Glu His Lys Glu Ile As - #p Gly Arg Leu Lys Glu
15         - #         20         - #         25
- - tta agg gaa caa tta aaa gaa ctt acc aag ca - #g tat gaa aag tct gaa
148
Leu Arg Glu Gln Leu Lys Glu Leu Thr Lys Gl - #n Tyr Glu Lys Ser Glu
30             - #     35             - #     40
- - aat gat ctg aag gcc cta cag agt gtt ggg ca - #g atc gtg ggt gaa gtg
196
Asn Asp Leu Lys Ala Leu Gln Ser Val Gly Gl - #n Ile Val Gly Glu Val
45                 - # 50                 - # 55                 - # 60
- - ctt aaa cag tta act gaa gaa aaa ttc att gt - #t aaa gct acc aat gga
244
Leu Lys Gln Leu Thr Glu Glu Lys Phe Ile Va - #l Lys Ala Thr Asn Gly
65 - #                 70 - #                 75
- - cca aga tat gtt gtg ggt tgt cgt cga cag ct - #t gac aaa agt aag ctg
292
Pro Arg Tyr Val Val Gly Cys Arg Arg Gln Le - #u Asp Lys Ser Lys Leu
80     - #             85     - #             90
- - aag cca gga aca aga gtt gct ttg gat atg ac - #t aca cta act atc atg
340
Lys Pro Gly Thr Arg Val Ala Leu Asp Met Th - #r Thr Leu Thr Ile Met
95         - #        100         - #        105
- - aga tat ttg ccg aga gag gtg gat cca ctg gt - #t tat aac atg tct cat
388
Arg Tyr Leu Pro Arg Glu Val Asp Pro Leu Va - #l Tyr Asn Met Ser His
110              - #   115              - #   120
- - gag gac cct ggg aat gtt tct tat tct gag at - #t gga ggg cta tca gaa
436
Glu Asp Pro Gly Asn Val Ser Tyr Ser Glu Il - #e Gly Gly Leu Ser Glu
125                 1 - #30                 1 - #35                 1 -
#40
- - cag atc cgg gaa tta aga gag gtg ata gaa tt - #a cct ctt aca aac
cca      484
Gln Ile Arg Glu Leu Arg Glu Val Ile Glu Le - #u Pro Leu Thr Asn Pro
145  - #               150  - #               155
- - gag tta ttt cag cgt gta gga ata ata cct cc - #a aaa ggc tgt ttg tta
532
Glu Leu Phe Gln Arg Val Gly Ile Ile Pro Pr - #o Lys Gly Cys Leu Leu
160      - #           165      - #           170
- - tat gga cca cca ggt acg gga aaa aca ctc tt - #g gca cga gcc gtt gct
580
Tyr Gly Pro Pro Gly Thr Gly Lys Thr Leu Le - #u Ala Arg Ala Val Ala
175          - #       180          - #       185
- - agc cag ctg gac tgc aat ttc tta aag gtt gt - #a tct agt tct att gta
628
Ser Gln Leu Asp Cys Asn Phe Leu Lys Val Va - #l Ser Ser Ser Ile Val
190              - #   195              - #   200
- - gac aag tac att ggt gaa agt gct cgt ttg at - #c aga gaa atg ttt aat
676
Asp Lys Tyr Ile Gly Glu Ser Ala Arg Leu Il - #e Arg Glu Met Phe Asn
205                 2 - #10                 2 - #15                 2 -
#20
- - tat gct aga gat cat caa cca tgc atc att tt - #t atg gat gaa ata
gat      724
Tyr Ala Arg Asp His Gln Pro Cys Ile Ile Ph - #e Met Asp Glu Ile Asp
225  - #               230  - #               235
- - gct att ggt ggt cgt cgg ttt tct gag ggt ac - #t tca gct gac aga gag
772
Ala Ile Gly Gly Arg Arg Phe Ser Glu Gly Th - #r Ser Ala Asp Arg Glu
240      - #           245      - #           250
- - att cag aga acg tta atg gag tta ctg aat ca - #a atg gat gga ttt gat
820
Ile Gln Arg Thr Leu Met Glu Leu Leu Asn Gl - #n Met Asp Gly Phe Asp
255          - #       260          - #       265
- - act ctg cat aga gtt aaa atg acc atg gct ac - #a aac aga cca gat aca
868
Thr Leu His Arg Val Lys Met Thr Met Ala Th - #r Asn Arg Pro Asp Thr
270              - #   275              - #   280
- - ctg gat cct gct ttg ctg cgt cca gga aga tt - #a gat aga aaa ata cat
916
Leu Asp Pro Ala Leu Leu Arg Pro Gly Arg Le - #u Asp Arg Lys Ile His
285                 2 - #90                 2 - #95                 3 -
#00
- - att gat ttg cca aat gaa caa gca aga tta ga - #c ata ctg aaa atc
cat      964
Ile Asp Leu Pro Asn Glu Gln Ala Arg Leu As - #p Ile Leu Lys Ile His
305  - #               310  - #               315
- - gca ggt ccc att aca aag cat ggt gaa ata ga - #t tat gaa gca att gtg
1012
Ala Gly Pro Ile Thr Lys His Gly Glu Ile As - #p Tyr Glu Ala Ile Val
320      - #           325      - #           330
- - aag ctt tcg gat ggc ttt aat gga gca gat ct - #g aga aat gtt tgt act
1060
Lys Leu Ser Asp Gly Phe Asn Gly Ala Asp Le - #u Arg Asn Val Cys Thr
335          - #       340          - #       345
- - gaa gca ggt atg ttc gca att cgt gct gat ca - #t gat ttt gta gta cag
1108
Glu Ala Gly Met Phe Ala Ile Arg Ala Asp Hi - #s Asp Phe Val Val Gln
350              - #   355              - #   360
- - gaa gac ttc atg aaa gca gtc aga aaa gtg gc - #t gat tct aag aag ctg
1156
Glu Asp Phe Met Lys Ala Val Arg Lys Val Al - #a Asp Ser Lys Lys Leu
365                 3 - #70                 3 - #75                 3 -
#80
- - gag tct aaa ttg gac tac aaa cct gtg taatttact - #g taagattttt
1203
Glu Ser Lys Leu Asp Tyr Lys Pro Val
385
- - gatggctgca tgacagatgt tggcttattg taaaaataaa gttaaagaaa at -
#aatgtatg   1263
- - tattggcaat gatgtcatta aaagtatatg aataaaaata tgagtaacat ca -
#taaaaatt   1323
- - agtaattcaa cttttaagat acagaagaaa tttgtatgtt tgttaaagtt gc -
#atttattg   1383
- - cagcaagtta caaagggaaa gtgttgaagc ttttcatatt tgctgcgtga gc -
#attttgta   1443
- - aaatattgaa agtggtttga gatagtggta taagaaagca tttcttatga ct -
#tattttgt   1503
- - atcatttgtt ttcctcatct aaaaagttga ataaaatctg tttgattcag tt -
#ctcctaaa   1563
- - aaa                  - #                  - #                  - #
1566
- -  - - <210> SEQ ID NO 16
<211> LENGTH: 223
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 16
- - Met Ser Asp Glu Glu Ala Arg Gln Ser Gly Gl - #y Ser Ser Gln Ala Gly
1               5 - #                 10 - #                 15
- - Val Val Thr Val Ser Asp Val Gln Glu Leu Me - #t Arg Arg Lys Glu Glu
20     - #             25     - #             30
- - Ile Glu Ala Gln Ile Lys Ala Asn Tyr Asp Va - #l Leu Glu Ser Gln Lys
35         - #         40         - #         45
- - Gly Ile Gly Met Asn Glu Pro Leu Val Asp Cy - #s Glu Gly Tyr Pro Arg
50             - #     55             - #     60
- - Ser Asp Val Asp Leu Tyr Gln Val Arg Thr Al - #a Arg His Asn Ile Ile
65                 - # 70                 - # 75                 - # 80
- - Cys Leu Gln Asn Asp His Lys Ala Val Met Ly - #s Gln Val Glu Glu Ala
85 - #                 90 - #                 95
- - Leu His Gln Leu His Ala Arg Asp Lys Glu Ly - #s Gln Ala Arg Asp Met
100      - #           105      - #           110
- - Ala Glu Ala His Lys Glu Ala Met Ser Arg Ly - #s Leu Gly Gln Ser Glu
115          - #       120          - #       125
- - Ser Gln Gly Pro Pro Arg Ala Phe Ala Lys Va - #l Asn Ser Ile Ser Pro
130              - #   135              - #   140
- - Gly Ser Pro Ala Ser Ile Ala Gly Leu Gln Va - #l Asp Asp Glu Ile Val
145                 1 - #50                 1 - #55                 1 -
#60
- - Glu Phe Gly Ser Val Asn Thr Gln Asn Phe Gl - #n Ser Leu His Asn
Ile
165  - #               170  - #               175
- - Gly Ser Val Val Gln His Ser Glu Gly Lys Pr - #o Leu Asn Val Thr Val
180      - #           185      - #           190
- - Ile Arg Arg Gly Glu Lys His Gln Leu Arg Le - #u Val Pro Thr Arg Trp
195          - #       200          - #       205
- - Ala Gly Lys Gly Leu Leu Gly Cys Asn Ile Il - #e Pro Leu Gln Arg
210              - #   215              - #   220
- -  - - <210> SEQ ID NO 17
<211> LENGTH: 669
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 17
- - atgtccgacg aggaagcgag gcagagcgga ggctcctcgc aggccggcgt cg -
#tgactgtc     60
- - agcgacgtcc aggagctgat gcggcgcaag gaggagatag aagcgcagat ca -
#aggccaac    120
- - tatgacgtgc tggaaagcca aaaaggcatt gggatgaacg agccgctggt gg -
#actgtgag    180
- - ggctaccccc ggtcagacgt ggacctgtac caagtccgca ccgccaggca ca -
#acatcata    240
- - tgcctgcaga atgatcacaa ggcagtgatg aagcaggtgg aggaggccct gc -
#accagctg    300
- - cacgctcgcg acaaggagaa gcaggcccgg gacatggctg aggcccacaa ag -
#aggccatg    360
- - agccgcaaac tgggtcagag tgagagccag ggccctccac gggccttcgc ca -
#aagtgaac    420
- - agcatcagcc ccggctcccc agccagcatc gcgggtctgc aagtggatga tg -
#agattgtg    480
- - gagttcggct ctgtgaacac ccagaacttc cagtcactgc ataacattgg ca -
#gtgtggtg    540
- - cagcacagtg aggggaagcc cctgaatgtg acagtgatcc gcagggggga aa -
#aacaccag    600
- - cttagacttg ttccaacacg ctgggcagga aaaggactgc tgggctgcaa ca -
#ttattcct    660
- - ctgcaaaga                - #                  - #
- #        669
- -  - - <210> SEQ ID NO 18
<211> LENGTH: 1128
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (125)..(793)
- - <400> SEQUENCE: 18
- - actgttctcg cgttcgcgga cggctgtggt gttttggcgc atgggcggag cg -
#tagttacg     60
- - gtcgactggg gcgtcgtccc tagcccggga gccgggtctc tggagtcgcg gc -
#ccggggtt    120
- - cacg atg tcc gac gag gaa gcg agg cag agc g - #ga ggc tcc tcg cag
gcc     169
Met Ser Asp Glu Glu Ala Arg Gln - # Ser Gly Gly Ser Ser Gln Ala
1           - #    5              - #    10              - #
15
- - ggc gtc gtg act gtc agc gac gtc cag gag ct - #g atg cgg cgc aag
gag      217
Gly Val Val Thr Val Ser Asp Val Gln Glu Le - #u Met Arg Arg Lys Glu
20 - #                 25 - #                 30
- - gag ata gaa gcg cag atc aag gcc aac tat ga - #c gtg ctg gaa agc caa
265
Glu Ile Glu Ala Gln Ile Lys Ala Asn Tyr As - #p Val Leu Glu Ser Gln
35     - #             40     - #             45
- - aaa ggc att ggg atg aac gag ccg ctg gtg ga - #c tgt gag ggc tac ccc
313
Lys Gly Ile Gly Met Asn Glu Pro Leu Val As - #p Cys Glu Gly Tyr Pro
50         - #         55         - #         60
- - cgg tca gac gtg gac ctg tac caa gtc cgc ac - #c gcc agg cac aac atc
361
Arg Ser Asp Val Asp Leu Tyr Gln Val Arg Th - #r Ala Arg His Asn Ile
65             - #     70             - #     75
- - ata tgc ctg cag aat gat cac aag gca gtg at - #g aag cag gtg gag gag
409
Ile Cys Leu Gln Asn Asp His Lys Ala Val Me - #t Lys Gln Val Glu Glu
80                 - # 85                 - # 90                 - # 95
- - gcc ctg cac cag ctg cac gct cgc gac aag ga - #g aag cag gcc cgg gac
457
Ala Leu His Gln Leu His Ala Arg Asp Lys Gl - #u Lys Gln Ala Arg Asp
100  - #               105  - #               110
- - atg gct gag gcc cac aaa gag gcc atg agc cg - #c aaa ctg ggt cag agt
505
Met Ala Glu Ala His Lys Glu Ala Met Ser Ar - #g Lys Leu Gly Gln Ser
115      - #           120      - #           125
- - gag agc cag ggc cct cca cgg gcc ttc gcc aa - #a gtg aac agc atc agc
553
Glu Ser Gln Gly Pro Pro Arg Ala Phe Ala Ly - #s Val Asn Ser Ile Ser
130          - #       135          - #       140
- - ccc ggc tcc cca gcc agc atc gcg ggt ctg ca - #a gtg gat gat gag att
601
Pro Gly Ser Pro Ala Ser Ile Ala Gly Leu Gl - #n Val Asp Asp Glu Ile
145              - #   150              - #   155
- - gtg gag ttc ggc tct gtg aac acc cag aac tt - #c cag tca ctg cat aac
649
Val Glu Phe Gly Ser Val Asn Thr Gln Asn Ph - #e Gln Ser Leu His Asn
160                 1 - #65                 1 - #70                 1 -
#75
- - att ggc agt gtg gtg cag cac agt gag ggg aa - #g ccc ctg aat gtg
aca      697
Ile Gly Ser Val Val Gln His Ser Glu Gly Ly - #s Pro Leu Asn Val Thr
180  - #               185  - #               190
- - gtg atc cgc agg ggg gaa aaa cac cag ctt ag - #a ctt gtt cca aca cgc
745
Val Ile Arg Arg Gly Glu Lys His Gln Leu Ar - #g Leu Val Pro Thr Arg
195      - #           200      - #           205
- - tgg gca gga aaa gga ctg ctg ggc tgc aac at - #t att cct ctg caa aga
793
Trp Ala Gly Lys Gly Leu Leu Gly Cys Asn Il - #e Ile Pro Leu Gln Arg
210          - #       215          - #       220
- - tgattgtccc tggggaacag taacaggaaa gcatcttccc ttgccctgga ct -
#tgggtcta    853
- - gggatttcca acttgtcttc tctccctgaa gcataaggat ctggaagagg ct -
#tgtaacct    913
- - gaacttctgt gtggtggcag tactgtggcc caccagtgta atctccctgg at -
#taaggcat    973
- - tcttaaaaac ttaggcttgg cctctttcac aaattaggcc acggccctaa at -
#aggaattc   1033
- - cctggattgt gggcaagtgg gcggaagtta ttctggcagg tactggtgtg at -
#tattatta   1093
- - ttatttttaa taaagagttt tacagtgctg atatg       - #
- #     1128
- -  - - <210> SEQ ID NO 19
<211> LENGTH: 506
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 19
- - Met Ala Glu Ala Asp Phe Lys Met Val Ser Gl - #u Pro Val Ala His
Gly
1               5 - #                 10 - #                 15
- - Val Ala Glu Glu Glu Met Ala Ser Ser Thr Se - #r Asp Ser Gly Glu Glu
20     - #             25     - #             30
- - Ser Asp Ser Ser Ser Ser Ser Ser Ser Thr Se - #r Asp Ser Ser Ser Ser
35         - #         40         - #         45
- - Ser Ser Thr Ser Gly Ser Ser Ser Gly Ser Gl - #y Ser Ser Ser Ser Ser
50             - #     55             - #     60
- - Ser Gly Ser Thr Ser Ser Arg Ser Arg Leu Ty - #r Arg Lys Lys Arg Val
65                 - # 70                 - # 75                 - # 80
- - Pro Glu Pro Ser Arg Arg Ala Arg Arg Ala Pr - #o Leu Gly Thr Asn Phe
85 - #                 90 - #                 95
- - Val Asp Arg Leu Pro Gln Ala Val Arg Asn Ar - #g Val Gln Ala Leu Arg
100      - #           105      - #           110
- - Asn Ile Gln Asp Glu Cys Asp Lys Val Asp Th - #r Leu Phe Leu Lys Ala
115          - #       120          - #       125
- - Ile His Asp Leu Glu Arg Lys Tyr Ala Glu Le - #u Asn Lys Pro Leu Tyr
130              - #   135              - #   140
- - Asp Arg Arg Phe Gln Ile Ile Asn Ala Glu Ty - #r Glu Pro Thr Glu Glu
145                 1 - #50                 1 - #55                 1 -
#60
- - Glu Cys Glu Trp Asn Ser Glu Asp Glu Glu Ph - #e Ser Ser Asp Glu
Glu
165  - #               170  - #               175
- - Val Gln Asp Asn Thr Pro Ser Glu Met Pro Pr - #o Leu Glu Gly Glu Glu
180      - #           185      - #           190
- - Glu Glu Asn Pro Lys Glu Asn Pro Glu Val Ly - #s Ala Glu Glu Lys Glu
195          - #       200          - #       205
- - Val Pro Lys Glu Ile Pro Glu Val Lys Asp Gl - #u Glu Lys Glu Val Ala
210              - #   215              - #   220
- - Lys Glu Ile Pro Glu Val Lys Ala Glu Glu Ly - #s Ala Asp Ser Lys Asp
225                 2 - #30                 2 - #35                 2 -
#40
- - Cys Met Glu Ala Thr Pro Glu Val Lys Glu As - #p Pro Lys Glu Val
Pro
245  - #               250  - #               255
- - Gln Val Lys Ala Asp Asp Lys Glu Gln Pro Ly - #s Ala Thr Glu Ala Lys
260      - #           265      - #           270
- - Ala Arg Ala Ala Val Arg Glu Thr His Lys Ar - #g Val Pro Glu Glu Arg
275          - #       280          - #       285
- - Leu Arg Asp Ser Val Asp Leu Lys Arg Ala Ar - #g Lys Gly Lys Pro Lys
290              - #   295              - #   300
- - Arg Glu Asp Pro Lys Gly Ile Pro Asp Tyr Tr - #p Leu Ile Val Leu Lys
305                 3 - #10                 3 - #15                 3 -
#20
- - Asn Val Asp Lys Leu Gly Pro Met Ile Gln Ly - #s Tyr Asp Glu Pro
Ile
325  - #               330  - #               335
- - Leu Lys Phe Leu Ser Asp Val Ser Leu Lys Ph - #e Ser Lys Pro Gly Gln
340      - #           345      - #           350
- - Pro Val Ser Tyr Thr Phe Glu Phe His Phe Le - #u Pro Asn Pro Tyr Phe
355          - #       360          - #       365
- - Arg Asn Glu Val Leu Val Lys Thr Tyr Ile Il - #e Lys Ala Lys Pro Asp
370              - #   375              - #   380
- - His Asn Asp Pro Phe Phe Ser Trp Gly Trp Gl - #u Ile Glu Asp Cys Lys
385                 3 - #90                 3 - #95                 4 -
#00
- - Gly Cys Lys Ile Asp Arg Arg Arg Gly Lys As - #p Val Thr Val Thr
Thr
405  - #               410  - #               415
- - Thr Gln Ser Arg Thr Thr Ala Thr Gly Glu Il - #e Glu Ile Gln Pro Arg
420      - #           425      - #           430
- - Val Val Pro Asn Ala Ser Phe Phe Asn Phe Ph - #e Ser Pro Pro Glu Ile
435          - #       440          - #       445
- - Pro Met Ile Gly Lys Leu Glu Pro Arg Glu As - #p Ala Ile Leu Asp Glu
450              - #   455              - #   460
- - Asp Phe Glu Ile Gly Gln Ile Leu His Asp As - #n Val Ile Leu Lys Ser
465                 4 - #70                 4 - #75                 4 -
#80
- - Ile Tyr Tyr Tyr Thr Gly Glu Val Asn Gly Th - #r Tyr Tyr Gln Phe
Gly
485  - #               490  - #               495
- - Lys His Tyr Gly Asn Lys Lys Tyr Arg Lys
500      - #           505
- -  - - <210> SEQ ID NO 20
<211> LENGTH: 1518
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 20
- - atggcagaag cagattttaa aatggtctcg gaacctgtcg cccatggggt tg -
#ccgaagag     60
- - gagatggcta gctcgactag tgattctggg gaagaatctg acagcagtag ct -
#ctagcagc    120
- - agcactagtg acagcagcag cagcagcagc actagtggca gcagcagcgg ca -
#gcggcagc    180
- - agcagcagca gcagcggcag cactagcagc cgcagccgct tgtatagaaa ga -
#agagggta    240
- - cctgagcctt ccagaagggc gcggcgggcc ccgttgggaa caaatttcgt gg -
#ataggctg    300
- - cctcaggcag ttagaaatcg tgtgcaagcg cttagaaaca ttcaagatga at -
#gtgacaag    360
- - gtagataccc tgttcttaaa agcaattcat gatcttgaaa gaaaatatgc tg -
#aactcaac    420
- - aagcctctgt atgataggcg gtttcaaatc atcaatgcag aatacgagcc ta -
#cagaagaa    480
- - gaatgtgaat ggaattcaga ggatgaggag ttcagcagtg atgaggaggt gc -
#aggataac    540
- - acccctagtg aaatgcctcc cttagagggt gaggaagaag aaaaccctaa ag -
#aaaaccca    600
- - gaggtgaaag ctgaagagaa ggaagttcct aaagaaattc ctgaggtgaa gg -
#atgaagaa    660
- - aaggaagttg ctaaagaaat tcctgaggta aaggctgaag aaaaagcaga tt -
#ctaaagac    720
- - tgtatggagg caacccctga agtaaaagaa gatcctaaag aagtccccca gg -
#taaaggca    780
- - gatgataaag aacagcctaa agcaacagag gctaaggcaa gggctgcagt aa -
#gagagact    840
- - cataaaagag ttcctgagga aaggcttcgg gacagtgtag atcttaaaag ag -
#ctaggaag    900
- - ggaaagccta aaagagaaga ccctaaaggc attcctgact attggctgat tg -
#ttttaaag    960
- - aatgttgaca agctcgggcc tatgattcag aagtatgatg agcccattct ga -
#agttcttg   1020
- - tcggatgtta gcctgaagtt ctcaaaacct ggccagcctg taagttacac ct -
#ttgaattt   1080
- - cattttctac ccaacccata cttcagaaat gaggtgctgg tgaagacata ta -
#taataaag   1140
- - gcaaaaccag atcacaatga tcccttcttt tcttggggat gggaaattga ag -
#attgcaaa   1200
- - ggctgcaaga tagaccggag aagaggaaaa gatgttactg tgacaactac cc -
#agagtcgc   1260
- - acaactgcta ctggagaaat tgaaatccag ccaagagtgg ttcctaatgc at -
#cattcttc   1320
- - aacttcttta gtcctcctga gattcctatg attgggaagc tggaaccacg ag -
#aagatgct   1380
- - atcctggatg aggactttga aattgggcag attttacatg ataatgtcat cc -
#tgaaatca   1440
- - atctattact atactggaga agtcaatggt acctactatc aatttggcaa ac -
#attatgga   1500
- - aacaagaaat acagaaaa             - #                  - #
- #1518
- -  - - <210> SEQ ID NO 21
<211> LENGTH: 2636
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (266)..(1783)
- - <400> SEQUENCE: 21
- - gattcggctg cggtacatct cggcactcta gctgcagccg ggagaggcct tg -
#ccgccacc     60
- - gctgtcgccc aagcctccac tgccgctgcc acctcagcgc cggcctctgc at -
#ccccagct    120
- - ccagctccgc tctgcgccgc tgctgccatc gccgctgcca cctccgcagc cc -
#gggcctcc    180
- - gccgccgcca cccaagcatc cgtgagtcat tttctgccca tctctggtcg cg -
#cggtctcc    240
- - ctggtagagt ttgtaggctt gcaag atg gca gaa gca gat - #ttt aaa atg gtc
292
- #          Met Ala Glu Ala Asp - # Phe Lys Met Val
- #            1      - #         5
- - tcg gaa cct gtc gcc cat ggg gtt gcc gaa ga - #g gag atg gct agc tcg
340
Ser Glu Pro Val Ala His Gly Val Ala Glu Gl - #u Glu Met Ala Ser Ser
10                 - # 15                 - # 20                 - # 25
- - act agt gat tct ggg gaa gaa tct gac agc ag - #t agc tct agc agc agc
388
Thr Ser Asp Ser Gly Glu Glu Ser Asp Ser Se - #r Ser Ser Ser Ser Ser
30 - #                 35 - #                 40
- - act agt gac agc agc agc agc agc agc act ag - #t ggc agc agc agc ggc
436
Thr Ser Asp Ser Ser Ser Ser Ser Ser Thr Se - #r Gly Ser Ser Ser Gly
45     - #             50     - #             55
- - agc ggc agc agc agc agc agc agc ggc agc ac - #t agc agc cgc agc cgc
484
Ser Gly Ser Ser Ser Ser Ser Ser Gly Ser Th - #r Ser Ser Arg Ser Arg
60         - #         65         - #         70
- - ttg tat aga aag aag agg gta cct gag cct tc - #c aga agg gcg cgg cgg
532
Leu Tyr Arg Lys Lys Arg Val Pro Glu Pro Se - #r Arg Arg Ala Arg Arg
75             - #     80             - #     85
- - gcc ccg ttg gga aca aat ttc gtg gat agg ct - #g cct cag gca gtt aga
580
Ala Pro Leu Gly Thr Asn Phe Val Asp Arg Le - #u Pro Gln Ala Val Arg
90                 - # 95                 - #100                 - #105
- - aat cgt gtg caa gcg ctt aga aac att caa ga - #t gaa tgt gac aag gta
628
Asn Arg Val Gln Ala Leu Arg Asn Ile Gln As - #p Glu Cys Asp Lys Val
110  - #               115  - #               120
- - gat acc ctg ttc tta aaa gca att cat gat ct - #t gaa aga aaa tat gct
676
Asp Thr Leu Phe Leu Lys Ala Ile His Asp Le - #u Glu Arg Lys Tyr Ala
125      - #           130      - #           135
- - gaa ctc aac aag cct ctg tat gat agg cgg tt - #t caa atc atc aat gca
724
Glu Leu Asn Lys Pro Leu Tyr Asp Arg Arg Ph - #e Gln Ile Ile Asn Ala
140          - #       145          - #       150
- - gaa tac gag cct aca gaa gaa gaa tgt gaa tg - #g aat tca gag gat gag
772
Glu Tyr Glu Pro Thr Glu Glu Glu Cys Glu Tr - #p Asn Ser Glu Asp Glu
155              - #   160              - #   165
- - gag ttc agc agt gat gag gag gtg cag gat aa - #c acc cct agt gaa atg
820
Glu Phe Ser Ser Asp Glu Glu Val Gln Asp As - #n Thr Pro Ser Glu Met
170                 1 - #75                 1 - #80                 1 -
#85
- - cct ccc tta gag ggt gag gaa gaa gaa aac cc - #t aaa gaa aac cca
gag      868
Pro Pro Leu Glu Gly Glu Glu Glu Glu Asn Pr - #o Lys Glu Asn Pro Glu
190  - #               195  - #               200
- - gtg aaa gct gaa gag aag gaa gtt cct aaa ga - #a att cct gag gtg aag
916
Val Lys Ala Glu Glu Lys Glu Val Pro Lys Gl - #u Ile Pro Glu Val Lys
205      - #           210      - #           215
- - gat gaa gaa aag gaa gtt gct aaa gaa att cc - #t gag gta aag gct gaa
964
Asp Glu Glu Lys Glu Val Ala Lys Glu Ile Pr - #o Glu Val Lys Ala Glu
220          - #       225          - #       230
- - gaa aaa gca gat tct aaa gac tgt atg gag gc - #a acc cct gaa gta aaa
1012
Glu Lys Ala Asp Ser Lys Asp Cys Met Glu Al - #a Thr Pro Glu Val Lys
235              - #   240              - #   245
- - gaa gat cct aaa gaa gtc ccc cag gta aag gc - #a gat gat aaa gaa cag
1060
Glu Asp Pro Lys Glu Val Pro Gln Val Lys Al - #a Asp Asp Lys Glu Gln
250                 2 - #55                 2 - #60                 2 -
#65
- - cct aaa gca aca gag gct aag gca agg gct gc - #a gta aga gag act
cat     1108
Pro Lys Ala Thr Glu Ala Lys Ala Arg Ala Al - #a Val Arg Glu Thr His
270  - #               275  - #               280
- - aaa aga gtt cct gag gaa agg ctt cgg gac ag - #t gta gat ctt aaa aga
1156
Lys Arg Val Pro Glu Glu Arg Leu Arg Asp Se - #r Val Asp Leu Lys Arg
285      - #           290      - #           295
- - gct agg aag gga aag cct aaa aga gaa gac cc - #t aaa ggc att cct gac
1204
Ala Arg Lys Gly Lys Pro Lys Arg Glu Asp Pr - #o Lys Gly Ile Pro Asp
300          - #       305          - #       310
- - tat tgg ctg att gtt tta aag aat gtt gac aa - #g ctc ggg cct atg att
1252
Tyr Trp Leu Ile Val Leu Lys Asn Val Asp Ly - #s Leu Gly Pro Met Ile
315              - #   320              - #   325
- - cag aag tat gat gag ccc att ctg aag ttc tt - #g tcg gat gtt agc ctg
1300
Gln Lys Tyr Asp Glu Pro Ile Leu Lys Phe Le - #u Ser Asp Val Ser Leu
330                 3 - #35                 3 - #40                 3 -
#45
- - aag ttc tca aaa cct ggc cag cct gta agt ta - #c acc ttt gaa ttt
cat     1348
Lys Phe Ser Lys Pro Gly Gln Pro Val Ser Ty - #r Thr Phe Glu Phe His
350  - #               355  - #               360
- - ttt cta ccc aac cca tac ttc aga aat gag gt - #g ctg gtg aag aca tat
1396
Phe Leu Pro Asn Pro Tyr Phe Arg Asn Glu Va - #l Leu Val Lys Thr Tyr
365      - #           370      - #           375
- - ata ata aag gca aaa cca gat cac aat gat cc - #c ttc ttt tct tgg gga
1444
Ile Ile Lys Ala Lys Pro Asp His Asn Asp Pr - #o Phe Phe Ser Trp Gly
380          - #       385          - #       390
- - tgg gaa att gaa gat tgc aaa ggc tgc aag at - #a gac cgg aga aga gga
1492
Trp Glu Ile Glu Asp Cys Lys Gly Cys Lys Il - #e Asp Arg Arg Arg Gly
395              - #   400              - #   405
- - aaa gat gtt act gtg aca act acc cag agt cg - #c aca act gct act gga
1540
Lys Asp Val Thr Val Thr Thr Thr Gln Ser Ar - #g Thr Thr Ala Thr Gly
410                 4 - #15                 4 - #20                 4 -
#25
- - gaa att gaa atc cag cca aga gtg gtt cct aa - #t gca tca ttc ttc
aac     1588
Glu Ile Glu Ile Gln Pro Arg Val Val Pro As - #n Ala Ser Phe Phe Asn
430  - #               435  - #               440
- - ttc ttt agt cct cct gag att cct atg att gg - #g aag ctg gaa cca cga
1636
Phe Phe Ser Pro Pro Glu Ile Pro Met Ile Gl - #y Lys Leu Glu Pro Arg
445      - #           450      - #           455
- - gaa gat gct atc ctg gat gag gac ttt gaa at - #t ggg cag att tta cat
1684
Glu Asp Ala Ile Leu Asp Glu Asp Phe Glu Il - #e Gly Gln Ile Leu His
460          - #       465          - #       470
- - gat aat gtc atc ctg aaa tca atc tat tac ta - #t act gga gaa gtc aat
1732
Asp Asn Val Ile Leu Lys Ser Ile Tyr Tyr Ty - #r Thr Gly Glu Val Asn
475              - #   480              - #   485
- - ggt acc tac tat caa ttt ggc aaa cat tat gg - #a aac aag aaa tac aga
1780
Gly Thr Tyr Tyr Gln Phe Gly Lys His Tyr Gl - #y Asn Lys Lys Tyr Arg
490                 4 - #95                 5 - #00                 5 -
#05
- - aaa taagtcaatc tgaaagattt ttcaagaatc ttaaaatctc aagaagtga - #a
1833
Lys
- - gcagattcat acagccttga aaaaagtaaa accctgacct gtaacctgaa ca -
#ctattatt   1893
- - ccttatagtc aagtttttgt ggtttcttgg tagtctatat tttaaaaata gt -
#cctaaaaa   1953
- - gtgtctaagt gccagtttat tctatctagg ctgttgtagt ataatattct tc -
#aaaatatg   2013
- - taagctgttg tcaattatct aaagcatgtt agtttggtgc tacacagtgt tg -
#atttttgt   2073
- - gatgtccttt ggtcatgttt ctgttagact gtagctgtga aactgtcaga at -
#tgttaact   2133
- - gaaacaaata tttgcttgaa aaaaaaagtt catgaagtac caatgcaagt gt -
#tttatttt   2193
- - ttttcttttt tccagcccat aagactaagg gtttaaatct gcttgcacta gc -
#tgtgcctt   2253
- - cattagtttg ctatagaaat ccagtactta tagtaaataa aacagtgtat tt -
#tgaagttt   2313
- - gactgcttga aaaagattag catacatcta atgtgaaaag accacatttg at -
#tcaactga   2373
- - gaccttgtgt atgtgacata tagtggccta taaatttaat cataatgatg tt -
#attgttta   2433
- - ccactgaggt gttaatataa catagtattt ttgaaaaagt ttcttcatct ta -
#tattgtgt   2493
- - aattgtaaac taaagatacc gtgttttctt tgtattgtgt tctaccttcc ct -
#ttcactga   2553
- - aaatgatcac ttcatttgat actgtttttc atgttcttgt attgcaacct aa -
#aataaata   2613
- - aatattaaag tgtgttatac tat           - #                  - #
2636
- -  - - <210> SEQ ID NO 22
<211> LENGTH: 170
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 22
- - Met Thr Glu Leu Gln Ser Ala Leu Leu Leu Ar - #g Arg Gln Leu Ala Glu
1               5 - #                 10 - #                 15
- - Leu Asn Lys Asn Pro Val Glu Gly Phe Ser Al - #a Gly Leu Ile Asp Asp
20     - #             25     - #             30
- - Asn Asp Leu Tyr Arg Trp Glu Val Leu Ile Il - #e Gly Pro Pro Asp Thr
35         - #         40         - #         45
- - Leu Tyr Glu Gly Gly Val Phe Lys Ala His Le - #u Thr Phe Pro Lys Asp
50             - #     55             - #     60
- - Tyr Pro Leu Arg Pro Pro Lys Met Lys Phe Il - #e Thr Glu Ile Trp His
65                 - # 70                 - # 75                 - # 80
- - Pro Asn Val Asp Lys Asn Gly Asp Val Cys Il - #e Ser Ile Leu His Glu
85 - #                 90 - #                 95
- - Pro Gly Glu Asp Lys Tyr Gly Tyr Glu Lys Pr - #o Glu Glu Arg Trp Leu
100      - #           105      - #           110
- - Pro Ile His Thr Val Glu Thr Ile Met Ile Se - #r Val Ile Ser Met Leu
115          - #       120          - #       125
- - Ala Asp Pro Asn Gly Asp Ser Pro Ala Asn Va - #l Asp Ala Ala Lys Glu
130              - #   135              - #   140
- - Trp Arg Glu Asp Arg Asn Gly Glu Phe Lys Ar - #g Lys Val Ala Arg Cys
145                 1 - #50                 1 - #55                 1 -
#60
- - Val Arg Lys Ser Gln Glu Thr Ala Phe Glu
165  - #               170
- -  - - <210> SEQ ID NO 23
<211> LENGTH: 510
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 23
- - atgacggagc tgcagtcggc actgctactg cgaagacagc tggcagaact ca -
#acaaaaat     60
- - ccagtggaag gcttttctgc aggtttaata gatgacaatg atctctaccg at -
#gggaagtc    120
- - cttattattg gccctccaga tacactttat gaaggtggtg tttttaaggc tc -
#atcttact    180
- - ttcccaaaag attatcccct ccgacctcct aaaatgaaat tcattacaga aa -
#tctggcac    240
- - ccaaatgttg ataaaaatgg tgatgtgtgc atttctattc ttcatgagcc tg -
#gggaagat    300
- - aagtatggtt atgaaaagcc agaggaacgc tggctcccta tccacactgt gg -
#aaaccatc    360
- - atgattagtg tcatttctat gctggcagac cctaatggag actcacctgc ta -
#atgttgat    420
- - gctgcgaaag aatggaggga agatagaaat ggagaattta aaagaaaagt tg -
#cccgctgt    480
- - gtaagaaaaa gccaagagac tgcttttgag         - #                  - #
510
- -  - - <210> SEQ ID NO 24
<211> LENGTH: 617
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (19)..(528)
- - <400> SEQUENCE: 24
- - gggccctcgg cagggagg atg acg gag ctg cag tcg gca - #ctg cta ctg cga
51
- #  Met Thr Glu Leu Gln Ser Ala Leu Leu - #Leu Arg
- #    1              - # 5                 - # 10
- - aga cag ctg gca gaa ctc aac aaa aat cca gt - #g gaa ggc ttt tct gca
99
Arg Gln Leu Ala Glu Leu Asn Lys Asn Pro Va - #l Glu Gly Phe Ser Ala
15     - #             20     - #             25
- - ggt tta ata gat gac aat gat ctc tac cga tg - #g gaa gtc ctt att att
147
Gly Leu Ile Asp Asp Asn Asp Leu Tyr Arg Tr - #p Glu Val Leu Ile Ile
30         - #         35         - #         40
- - ggc cct cca gat aca ctt tat gaa ggt ggt gt - #t ttt aag gct cat ctt
195
Gly Pro Pro Asp Thr Leu Tyr Glu Gly Gly Va - #l Phe Lys Ala His Leu
45             - #     50             - #     55
- - act ttc cca aaa gat tat ccc ctc cga cct cc - #t aaa atg aaa ttc att
243
Thr Phe Pro Lys Asp Tyr Pro Leu Arg Pro Pr - #o Lys Met Lys Phe Ile
60                 - # 65                 - # 70                 - # 75
- - aca gaa atc tgg cac cca aat gtt gat aaa aa - #t ggt gat gtg tgc att
291
Thr Glu Ile Trp His Pro Asn Val Asp Lys As - #n Gly Asp Val Cys Ile
80 - #                 85 - #                 90
- - tct att ctt cat gag cct ggg gaa gat aag ta - #t ggt tat gaa aag cca
339
Ser Ile Leu His Glu Pro Gly Glu Asp Lys Ty - #r Gly Tyr Glu Lys Pro
95     - #            100     - #            105
- - gag gaa cgc tgg ctc cct atc cac act gtg ga - #a acc atc atg att agt
387
Glu Glu Arg Trp Leu Pro Ile His Thr Val Gl - #u Thr Ile Met Ile Ser
110          - #       115          - #       120
- - gtc att tct atg ctg gca gac cct aat gga ga - #c tca cct gct aat gtt
435
Val Ile Ser Met Leu Ala Asp Pro Asn Gly As - #p Ser Pro Ala Asn Val
125              - #   130              - #   135
- - gat gct gcg aaa gaa tgg agg gaa gat aga aa - #t gga gaa ttt aaa aga
483
Asp Ala Ala Lys Glu Trp Arg Glu Asp Arg As - #n Gly Glu Phe Lys Arg
140                 1 - #45                 1 - #50                 1 -
#55
- - aaa gtt gcc cgc tgt gta aga aaa agc caa ga - #g act gct ttt gag
52 - #8
Lys Val Ala Arg Cys Val Arg Lys Ser Gln Gl - #u Thr Ala Phe Glu
160  - #               165  - #               170
- - tgacatttat ttagcagcta gtaacttcac ttatttcagg gtctccaatt ga -
#gaaacatg    588
- - gcactgtttt tcctgcactc tacccaccg         - #                  - #
617
- -  - - <210> SEQ ID NO 25
<211> LENGTH: 374
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 25
- - Met Val Leu Trp Glu Ser Pro Arg Gln Cys Se - #r Ser Trp Thr Leu Cys
1               5 - #                 10 - #                 15
- - Glu Gly Phe Cys Trp Leu Leu Leu Leu Pro Va - #l Met Leu Leu Ile Val
20     - #             25     - #             30
- - Ala Arg Pro Val Lys Leu Ala Ala Phe Pro Th - #r Ser Leu Ser Asp Cys
35         - #         40         - #         45
- - Gln Thr Pro Thr Gly Trp Asn Cys Ser Gly Ty - #r Asp Asp Arg Glu Asn
50             - #     55             - #     60
- - Asp Leu Phe Leu Cys Asp Thr Asn Thr Cys Ly - #s Phe Asp Gly Glu Cys
65                 - # 70                 - # 75                 - # 80
- - Leu Arg Ile Gly Asp Thr Val Thr Cys Val Cy - #s Gln Phe Lys Cys Asn
85 - #                 90 - #                 95
- - Asn Asp Tyr Val Pro Val Cys Gly Ser Asn Gl - #y Glu Ser Tyr Gln Asn
100      - #           105      - #           110
- - Glu Cys Tyr Leu Arg Gln Ala Ala Cys Lys Gl - #n Gln Ser Glu Ile Leu
115          - #       120          - #       125
- - Val Val Ser Glu Gly Ser Cys Ala Thr Asp Al - #a Gly Ser Gly Ser Gly
130              - #   135              - #   140
- - Asp Gly Val His Glu Gly Ser Gly Glu Thr Se - #r Gln Lys Glu Thr Ser
145                 1 - #50                 1 - #55                 1 -
#60
- - Thr Cys Asp Ile Cys Gln Phe Gly Ala Glu Cy - #s Asp Glu Asp Ala
Glu
165  - #               170  - #               175
- - Asp Val Trp Cys Val Cys Asn Ile Asp Cys Se - #r Gln Thr Asn Phe Asn
180      - #           185      - #           190
- - Pro Leu Cys Ala Ser Asp Gly Lys Ser Tyr As - #p Asn Ala Cys Gln Ile
195          - #       200          - #       205
- - Lys Glu Ala Ser Cys Gln Lys Gln Glu Lys Il - #e Glu Val Met Ser Leu
210              - #   215              - #   220
- - Gly Arg Cys Gln Asp Asn Thr Thr Thr Thr Th - #r Lys Ser Glu Asp Gly
225                 2 - #30                 2 - #35                 2 -
#40
- - His Tyr Ala Arg Thr Asp Tyr Ala Glu Asn Al - #a Asn Lys Leu Glu
Glu
245  - #               250  - #               255
- - Ser Ala Arg Glu His His Ile Pro Cys Pro Gl - #u His Tyr Asn Gly Phe
260      - #           265      - #           270
- - Cys Met His Gly Lys Cys Glu His Ser Ile As - #n Met Gln Glu Pro Ser
275          - #       280          - #       285
- - Cys Arg Cys Asp Ala Gly Tyr Thr Gly Gln Hi - #s Cys Glu Lys Lys Asp
290              - #   295              - #   300
- - Tyr Ser Val Leu Tyr Val Val Pro Gly Pro Va - #l Arg Phe Gln Tyr Val
305                 3 - #10                 3 - #15                 3 -
#20
- - Leu Ile Ala Ala Val Ile Gly Thr Ile Gln Il - #e Ala Val Ile Cys
Val
325  - #               330  - #               335
- - Val Val Leu Cys Ile Thr Arg Lys Cys Pro Ar - #g Ser Asn Arg Ile His
340      - #           345      - #           350
- - Arg Gln Lys Gln Asn Thr Gly His Tyr Ser Se - #r Asp Asn Thr Thr Arg
355          - #       360          - #       365
- - Ala Ser Thr Arg Leu Ile
370
- -  - - <210> SEQ ID NO 26
<211> LENGTH: 1122
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 26
- - atggtgctgt gggagtcccc gcggcagtgc agcagctgga cactttgcga gg -
#gcttttgc     60
- - tggctgctgc tgctgcccgt catgctactc atcgtagccc gcccggtgaa gc -
#tcgctgct    120
- - ttccctacct ccttaagtga ctgccaaacg cccaccggct ggaattgctc tg -
#gttatgat    180
- - gacagagaaa atgatctctt cctctgtgac accaacacct gtaaatttga tg -
#gggaatgt    240
- - ttaagaattg gagacactgt gacttgcgtc tgtcagttca agtgcaacaa tg -
#actatgtg    300
- - cctgtgtgtg gctccaatgg ggagagctac cagaatgagt gttacctgcg ac -
#aggctgca    360
- - tgcaaacagc agagtgagat acttgtggtg tcagaaggat catgtgccac ag -
#atgcagga    420
- - tcaggatctg gagatggagt ccatgaaggc tctggagaaa ctagtcaaaa gg -
#agacatcc    480
- - acctgtgata tttgccagtt tggtgcagaa tgtgacgaag atgccgagga tg -
#tctggtgt    540
- - gtgtgtaata ttgactgttc tcaaaccaac ttcaatcccc tctgcgcttc tg -
#atgggaaa    600
- - tcttatgata atgcatgcca aatcaaagaa gcatcgtgtc agaaacagga ga -
#aaattgaa    660
- - gtcatgtctt tgggtcgatg tcaagataac acaactacaa ctactaagtc tg -
#aagatggg    720
- - cattatgcaa gaacagatta tgcagagaat gctaacaaat tagaagaaag tg -
#ccagagaa    780
- - caccacatac cttgtccgga acattacaat ggcttctgca tgcatgggaa gt -
#gtgagcat    840
- - tctatcaata tgcaggagcc atcttgcagg tgtgatgctg gttatactgg ac -
#aacactgt    900
- - gaaaaaaagg actacagtgt tctatacgtt gttcccggtc ctgtacgatt tc -
#agtatgtc    960
- - ttaatcgcag ctgtgattgg aacaattcag attgctgtca tctgtgtggt gg -
#tcctctgc   1020
- - atcacaagga aatgccccag aagcaacaga attcacagac agaagcaaaa ta -
#cagggcac   1080
- - tacagttcag acaatacaac aagagcgtcc acgaggttaa tc    - #
- #1122
- -  - - <210> SEQ ID NO 27
<211> LENGTH: 1721
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (368)..(1489)
- - <400> SEQUENCE: 27
- - ctgcggggcg ccttgactct ccctccaccc tgcctcctcg ggctccactc gt -
#ctgcccct     60
- - ggactcccgt ctcctcctgt cctccggctt cccagagctc cctccttatg gc -
#agcagctt    120
- - cccgcgtctc cggcgcagct tctcagcgga cgaccctctc gctccggggc tg -
#agccagtc    180
- - cctggatgtt gctgaaactc tcgagatcat gcgcgggttt ggctgctgct tc -
#cccgccgg    240
- - gtgccactgc caccgccgcc gcctctgctg ccgccgtccg cgggatgctc ag -
#tagcccgc    300
- - tgcccggccc ccgcgatcct gtgttcctcg gaagccgttt gctgctgcag ag -
#ttgcacga    360
- - actagtc atg gtg ctg tgg gag tcc ccg cgg cag - #tgc agc agc tgg aca
409
Met Val Leu Trp Glu Ser - #Pro Arg Gln Cys Ser Ser Trp Thr
1        - #       5           - #       10
- - ctt tgc gag ggc ttt tgc tgg ctg ctg ctg ct - #g ccc gtc atg cta ctc
457
Leu Cys Glu Gly Phe Cys Trp Leu Leu Leu Le - #u Pro Val Met Leu Leu
15                 - # 20                 - # 25                 - # 30
- - atc gta gcc cgc ccg gtg aag ctc gct gct tt - #c cct acc tcc tta agt
505
Ile Val Ala Arg Pro Val Lys Leu Ala Ala Ph - #e Pro Thr Ser Leu Ser
35 - #                 40 - #                 45
- - gac tgc caa acg ccc acc ggc tgg aat tgc tc - #t ggt tat gat gac aga
553
Asp Cys Gln Thr Pro Thr Gly Trp Asn Cys Se - #r Gly Tyr Asp Asp Arg
50     - #             55     - #             60
- - gaa aat gat ctc ttc ctc tgt gac acc aac ac - #c tgt aaa ttt gat ggg
601
Glu Asn Asp Leu Phe Leu Cys Asp Thr Asn Th - #r Cys Lys Phe Asp Gly
65         - #         70         - #         75
- - gaa tgt tta aga att gga gac act gtg act tg - #c gtc tgt cag ttc aag
649
Glu Cys Leu Arg Ile Gly Asp Thr Val Thr Cy - #s Val Cys Gln Phe Lys
80             - #     85             - #     90
- - tgc aac aat gac tat gtg cct gtg tgt ggc tc - #c aat ggg gag agc tac
697
Cys Asn Asn Asp Tyr Val Pro Val Cys Gly Se - #r Asn Gly Glu Ser Tyr
95                 - #100                 - #105                 - #110
- - cag aat gag tgt tac ctg cga cag gct gca tg - #c aaa cag cag agt gag
745
Gln Asn Glu Cys Tyr Leu Arg Gln Ala Ala Cy - #s Lys Gln Gln Ser Glu
115  - #               120  - #               125
- - ata ctt gtg gtg tca gaa gga tca tgt gcc ac - #a gat gca gga tca gga
793
Ile Leu Val Val Ser Glu Gly Ser Cys Ala Th - #r Asp Ala Gly Ser Gly
130      - #           135      - #           140
- - tct gga gat gga gtc cat gaa ggc tct gga ga - #a act agt caa aag gag
841
Ser Gly Asp Gly Val His Glu Gly Ser Gly Gl - #u Thr Ser Gln Lys Glu
145          - #       150          - #       155
- - aca tcc acc tgt gat att tgc cag ttt ggt gc - #a gaa tgt gac gaa gat
889
Thr Ser Thr Cys Asp Ile Cys Gln Phe Gly Al - #a Glu Cys Asp Glu Asp
160              - #   165              - #   170
- - gcc gag gat gtc tgg tgt gtg tgt aat att ga - #c tgt tct caa acc aac
937
Ala Glu Asp Val Trp Cys Val Cys Asn Ile As - #p Cys Ser Gln Thr Asn
175                 1 - #80                 1 - #85                 1 -
#90
- - ttc aat ccc ctc tgc gct tct gat ggg aaa tc - #t tat gat aat gca
tgc      985
Phe Asn Pro Leu Cys Ala Ser Asp Gly Lys Se - #r Tyr Asp Asn Ala Cys
195  - #               200  - #               205
- - caa atc aaa gaa gca tcg tgt cag aaa cag ga - #g aaa att gaa gtc atg
1033
Gln Ile Lys Glu Ala Ser Cys Gln Lys Gln Gl - #u Lys Ile Glu Val Met
210      - #           215      - #           220
- - tct ttg ggt cga tgt caa gat aac aca act ac - #a act act aag tct gaa
1081
Ser Leu Gly Arg Cys Gln Asp Asn Thr Thr Th - #r Thr Thr Lys Ser Glu
225          - #       230          - #       235
- - gat ggg cat tat gca aga aca gat tat gca ga - #g aat gct aac aaa tta
1129
Asp Gly His Tyr Ala Arg Thr Asp Tyr Ala Gl - #u Asn Ala Asn Lys Leu
240              - #   245              - #   250
- - gaa gaa agt gcc aga gaa cac cac ata cct tg - #t ccg gaa cat tac aat
1177
Glu Glu Ser Ala Arg Glu His His Ile Pro Cy - #s Pro Glu His Tyr Asn
255                 2 - #60                 2 - #65                 2 -
#70
- - ggc ttc tgc atg cat ggg aag tgt gag cat tc - #t atc aat atg cag
gag     1225
Gly Phe Cys Met His Gly Lys Cys Glu His Se - #r Ile Asn Met Gln Glu
275  - #               280  - #               285
- - cca tct tgc agg tgt gat gct ggt tat act gg - #a caa cac tgt gaa aaa
1273
Pro Ser Cys Arg Cys Asp Ala Gly Tyr Thr Gl - #y Gln His Cys Glu Lys
290      - #           295      - #           300
- - aag gac tac agt gtt cta tac gtt gtt ccc gg - #t cct gta cga ttt cag
1321
Lys Asp Tyr Ser Val Leu Tyr Val Val Pro Gl - #y Pro Val Arg Phe Gln
305          - #       310          - #       315
- - tat gtc tta atc gca gct gtg att gga aca at - #t cag att gct gtc atc
1369
Tyr Val Leu Ile Ala Ala Val Ile Gly Thr Il - #e Gln Ile Ala Val Ile
320              - #   325              - #   330
- - tgt gtg gtg gtc ctc tgc atc aca agg aaa tg - #c ccc aga agc aac aga
1417
Cys Val Val Val Leu Cys Ile Thr Arg Lys Cy - #s Pro Arg Ser Asn Arg
335                 3 - #40                 3 - #45                 3 -
#50
- - att cac aga cag aag caa aat aca ggg cac ta - #c agt tca gac aat
aca     1465
Ile His Arg Gln Lys Gln Asn Thr Gly His Ty - #r Ser Ser Asp Asn Thr
355  - #               360  - #               365
- - aca aga gcg tcc acg agg tta atc taaagggagc at - #gtttcaca gtggctggac
1519
Thr Arg Ala Ser Thr Arg Leu Ile
370
- - taccgagagc ttggactaca caatacagta ttatagacaa aagaataaga ca -
#agagatct   1579
- - acacatgttg ccttgcattt gtggtaatct acaccaatga aaacatgtac ta -
#cagctata   1639
- - tttgattatg tatggatata tttgaaatag tatacattgt cttgatgttt tt -
#tctgtaat   1699
- - gtaaataaac tatttatatc ac           - #                  - #
1721
- -  - - <210> SEQ ID NO 28
<211> LENGTH: 817
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 28
- - Met Gly Asp Thr Val Val Glu Pro Ala Pro Le - #u Lys Pro Thr Ser Glu
1               5 - #                 10 - #                 15
- - Pro Thr Ser Gly Pro Pro Gly Asn Asn Gly Gl - #y Ser Leu Leu Ser Val
20     - #             25     - #             30
- - Ile Thr Glu Gly Val Gly Glu Leu Ser Val Il - #e Asp Pro Glu Val Ala
35         - #         40         - #         45
- - Gln Lys Ala Cys Gln Glu Val Leu Glu Lys Va - #l Lys Leu Leu His Gly
50             - #     55             - #     60
- - Gly Val Ala Val Ser Ser Arg Gly Thr Pro Le - #u Glu Leu Val Asn Gly
65                 - # 70                 - # 75                 - # 80
- - Asp Gly Val Asp Ser Glu Ile Arg Cys Leu As - #p Asp Pro Pro Ala Gln
85 - #                 90 - #                 95
- - Ile Arg Glu Glu Glu Asp Glu Met Gly Ala Al - #a Val Ala Ser Gly Thr
100      - #           105      - #           110
- - Ala Lys Gly Ala Arg Arg Arg Arg Gln Asn As - #n Ser Ala Lys Gln Ser
115          - #       120          - #       125
- - Trp Leu Leu Arg Leu Phe Glu Ser Lys Leu Ph - #e Asp Ile Ser Met Ala
130              - #   135              - #   140
- - Ile Ser Tyr Leu Tyr Asn Ser Lys Glu Pro Gl - #y Val Gln Ala Tyr Ile
145                 1 - #50                 1 - #55                 1 -
#60
- - Gly Asn Arg Leu Phe Cys Phe Arg Asn Glu As - #p Val Asp Phe Tyr
Leu
165  - #               170  - #               175
- - Pro Gln Leu Leu Asn Met Tyr Ile His Met As - #p Glu Asp Val Gly Asp
180      - #           185      - #           190
- - Ala Ile Lys Pro Tyr Ile Val His Arg Cys Ar - #g Gln Ser Ile Asn Phe
195          - #       200          - #       205
- - Ser Leu Gln Cys Ala Leu Leu Leu Gly Ala Ty - #r Ser Ser Asp Met His
210              - #   215              - #   220
- - Ile Ser Thr Gln Arg His Ser Arg Gly Thr Ly - #s Leu Arg Lys Leu Ile
225                 2 - #30                 2 - #35                 2 -
#40
- - Leu Ser Asp Glu Leu Lys Pro Ala His Arg Ly - #s Arg Glu Leu Pro
Ser
245  - #               250  - #               255
- - Leu Ser Pro Ala Pro Asp Thr Gly Leu Ser Pr - #o Ser Lys Arg Thr His
260      - #           265      - #           270
- - Gln Arg Ser Lys Ser Asp Ala Thr Ala Ser Il - #e Ser Leu Ser Ser Asn
275          - #       280          - #       285
- - Leu Lys Arg Thr Ala Ser Asn Pro Lys Val Gl - #u Asn Glu Asp Glu Glu
290              - #   295              - #   300
- - Leu Ser Ser Ser Thr Glu Ser Ile Asp Asn Se - #r Phe Ser Ser Pro Val
305                 3 - #10                 3 - #15                 3 -
#20
- - Arg Leu Ala Pro Glu Arg Glu Phe Ile Lys Se - #r Leu Met Ala Ile
Gly
325  - #               330  - #               335
- - Lys Arg Leu Ala Thr Leu Pro Thr Lys Glu Gl - #n Lys Thr Gln Arg Leu
340      - #           345      - #           350
- - Ile Ser Glu Leu Ser Leu Leu Asn His Lys Le - #u Pro Ala Arg Val Trp
355          - #       360          - #       365
- - Leu Pro Thr Ala Gly Phe Asp His His Val Va - #l Arg Val Pro His Thr
370              - #   375              - #   380
- - Gln Ala Val Val Leu Asn Ser Lys Asp Lys Al - #a Pro Tyr Leu Ile Tyr
385                 3 - #90                 3 - #95                 4 -
#00
- - Val Glu Val Leu Glu Cys Glu Asn Phe Asp Th - #r Thr Ser Val Pro
Ala
405  - #               410  - #               415
- - Arg Ile Pro Glu Asn Arg Ile Arg Ser Thr Ar - #g Ser Val Glu Asn Leu
420      - #           425      - #           430
- - Pro Glu Cys Gly Ile Thr His Glu Gln Arg Al - #a Gly Ser Phe Ser Thr
435          - #       440          - #       445
- - Val Pro Asn Tyr Asp Asn Asp Asp Glu Ala Tr - #p Ser Val Asp Asp Ile
450              - #   455              - #   460
- - Gly Glu Leu Gln Val Glu Leu Pro Glu Val Hi - #s Thr Asn Ser Cys Asp
465                 4 - #70                 4 - #75                 4 -
#80
- - Asn Ile Ser Gln Phe Ser Val Asp Ser Ile Th - #r Ser Gln Glu Ser
Lys
485  - #               490  - #               495
- - Glu Pro Val Phe Ile Ala Ala Gly Asp Ile Ar - #g Arg Arg Leu Ser Glu
500      - #           505      - #           510
- - Gln Leu Ala His Thr Pro Thr Ala Phe Lys Ar - #g Asp Pro Glu Asp Pro
515          - #       520          - #       525
- - Ser Ala Val Ala Leu Lys Glu Pro Trp Gln Gl - #u Lys Val Arg Arg Ile
530              - #   535              - #   540
- - Arg Glu Gly Ser Pro Tyr Gly His Leu Pro As - #n Trp Arg Leu Leu Ser
545                 5 - #50                 5 - #55                 5 -
#60
- - Val Ile Val Lys Cys Gly Asp Asp Leu Arg Gl - #n Glu Leu Leu Ala
Phe
565  - #               570  - #               575
- - Gln Val Leu Lys Gln Leu Gln Ser Ile Trp Gl - #u Gln Glu Arg Val Pro
580      - #           585      - #           590
- - Leu Trp Ile Lys Pro Ile Gln Asp Ser Cys Gl - #u Ile Thr Thr Asp Ser
595          - #       600          - #       605
- - Gly Met Ile Glu Pro Val Val Asn Ala Val Se - #r Ile His Gln Val Lys
610              - #   615              - #   620
- - Lys Gln Ser Gln Leu Ser Leu Leu Asp Tyr Ph - #e Leu Gln Glu His Gly
625                 6 - #30                 6 - #35                 6 -
#40
- - Ser Tyr Thr Thr Glu Ala Phe Leu Ser Ala Gl - #n Arg Asn Phe Val
Gln
645  - #               650  - #               655
- - Ser Cys Ala Gly Tyr Cys Leu Val Cys Tyr Le - #u Leu Gln Val Lys Asp
660      - #           665      - #           670
- - Arg His Asn Gly Asn Ile Leu Leu Asp Ala Gl - #u Gly His Ile Ile His
675          - #       680          - #       685
- - Ile Asp Phe Gly Phe Ile Leu Ser Ser Ser Pr - #o Arg Asn Leu Gly Phe
690              - #   695              - #   700
- - Glu Thr Ser Ala Phe Lys Leu Thr Thr Glu Ph - #e Val Asp Val Met Gly
705                 7 - #10                 7 - #15                 7 -
#20
- - Gly Leu Asp Gly Asp Met Phe Asn Tyr Tyr Ly - #s Met Leu Met Leu
Gln
725  - #               730  - #               735
- - Gly Leu Ile Ala Ala Arg Lys His Met Asp Ly - #s Val Val Gln Ile Val
740      - #           745      - #           750
- - Glu Ile Met Gln Gln Gly Ser Gln Leu Pro Cy - #s Phe His Gly Ser Ser
755          - #       760          - #       765
- - Thr Ile Arg Asn Leu Lys Glu Arg Phe His Me - #t Ser Met Thr Glu Glu
770              - #   775              - #   780
- - Gln Leu Gln Leu Leu Val Glu Gln Met Val As - #p Gly Ser Met Arg Ser
785                 7 - #90                 7 - #95                 8 -
#00
- - Ile Thr Thr Lys Leu Tyr Asp Gly Phe Gln Ty - #r Leu Thr Asn Gly
Ile
805  - #               810  - #               815
- - Met
- -  - - <210> SEQ ID NO 29
<211> LENGTH: 2451
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 29
- - atgggagata cagtagtgga gcctgccccc ttgaagccaa cttctgagcc ca -
#cttctggc     60
- - ccaccaggga ataatggggg gtccctgcta agtgtcatca cggagggggt cg -
#gggaacta    120
- - tcagtgattg accctgaggt ggcccagaag gcctgccagg aggtgttgga ga -
#aagtcaag    180
- - cttttgcatg gaggcgtggc agtctctagc agaggcaccc cactggagtt gg -
#tcaatggg    240
- - gatggtgtgg acagtgagat ccgttgccta gatgatccac ctgcccagat ca -
#gggaggag    300
- - gaagatgaga tgggggccgc tgtggcctca ggcacagcca aaggagcaag aa -
#gacggcgg    360
- - cagaacaact cagctaaaca gtcttggctg ctgaggctgt ttgagtcaaa ac -
#tgtttgac    420
- - atctccatgg ccatttcata cctgtataac tccaaggagc ctggagtaca ag -
#cctacatt    480
- - ggcaaccggc tcttctgctt tcgcaacgag gacgtggact tctatctgcc cc -
#agttgctt    540
- - aacatgtaca tccacatgga tgaggacgtg ggtgatgcca ttaagcccta ca -
#tagtccac    600
- - cgttgccgcc agagcattaa cttttccctc cagtgtgccc tgttgcttgg gg -
#cctattct    660
- - tcagacatgc acatttccac tcaacgacac tcccgtggga ccaagctacg ga -
#agctgatc    720
- - ctctcagatg agctaaagcc agctcacagg aagagggagc tgccctcctt ga -
#gcccggcc    780
- - cctgatacag ggctgtctcc ctccaaaagg actcaccagc gctctaagtc ag -
#atgccact    840
- - gccagcataa gtctcagcag caacctgaaa cgaacagcca gcaaccctaa ag -
#tggagaat    900
- - gaggatgagg agctctcctc cagcaccgag agtattgata attcattcag tt -
#cccctgtt    960
- - cgactggctc ctgagagaga attcatcaag tccctgatgg cgatcggcaa gc -
#ggctggcc   1020
- - acgctcccca ccaaagagca gaaaacacag aggctgatct cagagctctc cc -
#tgctcaac   1080
- - cataagctcc ctgcccgagt ctggctgccc actgctggct ttgaccacca cg -
#tggtccgt   1140
- - gtaccccaca cacaggctgt tgtcctcaac tccaaggaca aggctcccta cc -
#tgatttat   1200
- - gtggaagtcc ttgaatgtga aaactttgac accaccagtg tccctgcccg ga -
#tccccgag   1260
- - aaccgaattc ggagtacgag gtccgtagaa aacttgcccg aatgtggtat ta -
#cccatgag   1320
- - cagcgagctg gcagcttcag cactgtgccc aactatgaca acgatgatga gg -
#cctggtcg   1380
- - gtggatgaca taggcgagct gcaagtggag ctccccgaag tgcataccaa ca -
#gctgtgac   1440
- - aacatctccc agttctctgt ggacagcatc accagccagg agagcaagga gc -
#ctgtgttc   1500
- - attgcagcag gggacatccg ccggcgcctt tcggaacagc tggctcatac cc -
#cgacagcc   1560
- - ttcaaacgag acccagaaga tccttctgca gttgctctca aagagccctg gc -
#aggagaaa   1620
- - gtacggcgga tcagagaggg ctccccctac ggccatctcc ccaattggcg gc -
#tcctgtca   1680
- - gtcattgtca agtgtgggga tgaccttcgg caagagcttc tggcctttca gg -
#tgttgaag   1740
- - caactgcagt ccatttggga acaggagcga gtgccccttt ggatcaagcc aa -
#tacaagat   1800
- - tcttgtgaaa ttacgactga tagtggcatg attgaaccag tggtcaatgc tg -
#tgtccatc   1860
- - catcaggtga agaaacagtc acagctctcc ttgctcgatt acttcctaca gg -
#agcacggc   1920
- - agttacacca ctgaggcatt cctcagtgca cagcgcaatt ttgtgcaaag tt -
#gtgctggg   1980
- - tactgcttgg tctgctacct gctgcaagtc aaggacagac acaatgggaa ta -
#tccttttg   2040
- - gacgcagaag gccacatcat ccacatcgac tttggcttca tcctctccag ct -
#caccccga   2100
- - aatctgggct ttgagacgtc agcctttaag ctgaccacag agtttgtgga tg -
#tgatgggc   2160
- - ggcctggatg gcgacatgtt caactactat aagatgctga tgctgcaagg gc -
#tgattgcc   2220
- - gctcggaaac acatggacaa ggtggtgcag atcgtggaga tcatgcagca ag -
#gttctcag   2280
- - cttccttgct tccatggctc cagcaccatt cgaaacctca aagagaggtt cc -
#acatgagc   2340
- - atgactgagg agcagctgca gctgctggtg gagcagatgg tggatggcag ta -
#tgcggtct   2400
- - atcaccacca aactctatga cggcttccag tacctcacca acggcatcat g - #
2451
- -  - - <210> SEQ ID NO 30
<211> LENGTH: 3602
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (429)..(2879)
- - <400> SEQUENCE: 30
- - ggtggctcac gcctgtaatc ccagcacttt gggaggacaa ggcagatccc tt -
#gagcccag     60
- - gaggtagagg ctgcagtgag ctgtgatggt gccactgcac tccagcctgg gc -
#aatgaagc    120
- - aagaccctat ctgaaaaaaa aaatttttaa aaaaggcaaa gatgggcctg gg -
#gcaccaaa    180
- - tattccagag gaaagggaac gtgtgtactc cttgaggtgg ggaacatgac cc -
#acttgagg    240
- - tgcagaaaga agacttgtat ggggctggtg cagcctccgc ggccgctgtc ag -
#ggaagcgc    300
- - aggcggccaa tggaacccgg gagcggtcgc tgctgctgag gcggcagtgt cg -
#gcagtcca    360
- - accgcgactg cccgcacccc ctccgcgggg tcccccagag cttggaagct cg -
#aagtctgg    420
- - ctgtggcc atg gga gat aca gta gtg gag cct gcc - #ccc ttg aag cca
act     470
Met Gly Asp Thr Val V - #al Glu Pro Ala Pro Leu Lys Pro Thr
1       - #        5          - #        10
- - tct gag ccc act tct ggc cca cca ggg aat aa - #t ggg ggg tcc ctg cta
518
Ser Glu Pro Thr Ser Gly Pro Pro Gly Asn As - #n Gly Gly Ser Leu Leu
15                 - # 20                 - # 25                 - # 30
- - agt gtc atc acg gag ggg gtc ggg gaa cta tc - #a gtg att gac cct gag
566
Ser Val Ile Thr Glu Gly Val Gly Glu Leu Se - #r Val Ile Asp Pro Glu
35 - #                 40 - #                 45
- - gtg gcc cag aag gcc tgc cag gag gtg ttg ga - #g aaa gtc aag ctt ttg
614
Val Ala Gln Lys Ala Cys Gln Glu Val Leu Gl - #u Lys Val Lys Leu Leu
50     - #             55     - #             60
- - cat gga ggc gtg gca gtc tct agc aga ggc ac - #c cca ctg gag ttg gtc
662
His Gly Gly Val Ala Val Ser Ser Arg Gly Th - #r Pro Leu Glu Leu Val
65         - #         70         - #         75
- - aat ggg gat ggt gtg gac agt gag atc cgt tg - #c cta gat gat cca cct
710
Asn Gly Asp Gly Val Asp Ser Glu Ile Arg Cy - #s Leu Asp Asp Pro Pro
80             - #     85             - #     90
- - gcc cag atc agg gag gag gaa gat gag atg gg - #g gcc gct gtg gcc tca
758
Ala Gln Ile Arg Glu Glu Glu Asp Glu Met Gl - #y Ala Ala Val Ala Ser
95                 - #100                 - #105                 - #110
- - ggc aca gcc aaa gga gca aga aga cgg cgg ca - #g aac aac tca gct aaa
806
Gly Thr Ala Lys Gly Ala Arg Arg Arg Arg Gl - #n Asn Asn Ser Ala Lys
115  - #               120  - #               125
- - cag tct tgg ctg ctg agg ctg ttt gag tca aa - #a ctg ttt gac atc tcc
854
Gln Ser Trp Leu Leu Arg Leu Phe Glu Ser Ly - #s Leu Phe Asp Ile Ser
130      - #           135      - #           140
- - atg gcc att tca tac ctg tat aac tcc aag ga - #g cct gga gta caa gcc
902
Met Ala Ile Ser Tyr Leu Tyr Asn Ser Lys Gl - #u Pro Gly Val Gln Ala
145          - #       150          - #       155
- - tac att ggc aac cgg ctc ttc tgc ttt cgc aa - #c gag gac gtg gac ttc
950
Tyr Ile Gly Asn Arg Leu Phe Cys Phe Arg As - #n Glu Asp Val Asp Phe
160              - #   165              - #   170
- - tat ctg ccc cag ttg ctt aac atg tac atc ca - #c atg gat gag gac gtg
998
Tyr Leu Pro Gln Leu Leu Asn Met Tyr Ile Hi - #s Met Asp Glu Asp Val
175                 1 - #80                 1 - #85                 1 -
#90
- - ggt gat gcc att aag ccc tac ata gtc cac cg - #t tgc cgc cag agc
att     1046
Gly Asp Ala Ile Lys Pro Tyr Ile Val His Ar - #g Cys Arg Gln Ser Ile
195  - #               200  - #               205
- - aac ttt tcc ctc cag tgt gcc ctg ttg ctt gg - #g gcc tat tct tca gac
1094
Asn Phe Ser Leu Gln Cys Ala Leu Leu Leu Gl - #y Ala Tyr Ser Ser Asp
210      - #           215      - #           220
- - atg cac att tcc act caa cga cac tcc cgt gg - #g acc aag cta cgg aag
1142
Met His Ile Ser Thr Gln Arg His Ser Arg Gl - #y Thr Lys Leu Arg Lys
225          - #       230          - #       235
- - ctg atc ctc tca gat gag cta aag cca gct ca - #c agg aag agg gag ctg
1190
Leu Ile Leu Ser Asp Glu Leu Lys Pro Ala Hi - #s Arg Lys Arg Glu Leu
240              - #   245              - #   250
- - ccc tcc ttg agc ccg gcc cct gat aca ggg ct - #g tct ccc tcc aaa agg
1238
Pro Ser Leu Ser Pro Ala Pro Asp Thr Gly Le - #u Ser Pro Ser Lys Arg
255                 2 - #60                 2 - #65                 2 -
#70
- - act cac cag cgc tct aag tca gat gcc act gc - #c agc ata agt ctc
agc     1286
Thr His Gln Arg Ser Lys Ser Asp Ala Thr Al - #a Ser Ile Ser Leu Ser
275  - #               280  - #               285
- - agc aac ctg aaa cga aca gcc agc aac cct aa - #a gtg gag aat gag gat
1334
Ser Asn Leu Lys Arg Thr Ala Ser Asn Pro Ly - #s Val Glu Asn Glu Asp
290      - #           295      - #           300
- - gag gag ctc tcc tcc agc acc gag agt att ga - #t aat tca ttc agt tcc
1382
Glu Glu Leu Ser Ser Ser Thr Glu Ser Ile As - #p Asn Ser Phe Ser Ser
305          - #       310          - #       315
- - cct gtt cga ctg gct cct gag aga gaa ttc at - #c aag tcc ctg atg gcg
1430
Pro Val Arg Leu Ala Pro Glu Arg Glu Phe Il - #e Lys Ser Leu Met Ala
320              - #   325              - #   330
- - atc ggc aag cgg ctg gcc acg ctc ccc acc aa - #a gag cag aaa aca cag
1478
Ile Gly Lys Arg Leu Ala Thr Leu Pro Thr Ly - #s Glu Gln Lys Thr Gln
335                 3 - #40                 3 - #45                 3 -
#50
- - agg ctg atc tca gag ctc tcc ctg ctc aac ca - #t aag ctc cct gcc
cga     1526
Arg Leu Ile Ser Glu Leu Ser Leu Leu Asn Hi - #s Lys Leu Pro Ala Arg
355  - #               360  - #               365
- - gtc tgg ctg ccc act gct ggc ttt gac cac ca - #c gtg gtc cgt gta ccc
1574
Val Trp Leu Pro Thr Ala Gly Phe Asp His Hi - #s Val Val Arg Val Pro
370      - #           375      - #           380
- - cac aca cag gct gtt gtc ctc aac tcc aag ga - #c aag gct ccc tac ctg
1622
His Thr Gln Ala Val Val Leu Asn Ser Lys As - #p Lys Ala Pro Tyr Leu
385          - #       390          - #       395
- - att tat gtg gaa gtc ctt gaa tgt gaa aac tt - #t gac acc acc agt gtc
1670
Ile Tyr Val Glu Val Leu Glu Cys Glu Asn Ph - #e Asp Thr Thr Ser Val
400              - #   405              - #   410
- - cct gcc cgg atc ccc gag aac cga att cgg ag - #t acg agg tcc gta gaa
1718
Pro Ala Arg Ile Pro Glu Asn Arg Ile Arg Se - #r Thr Arg Ser Val Glu
415                 4 - #20                 4 - #25                 4 -
#30
- - aac ttg ccc gaa tgt ggt att acc cat gag ca - #g cga gct ggc agc
ttc     1766
Asn Leu Pro Glu Cys Gly Ile Thr His Glu Gl - #n Arg Ala Gly Ser Phe
435  - #               440  - #               445
- - agc act gtg ccc aac tat gac aac gat gat ga - #g gcc tgg tcg gtg gat
1814
Ser Thr Val Pro Asn Tyr Asp Asn Asp Asp Gl - #u Ala Trp Ser Val Asp
450      - #           455      - #           460
- - gac ata ggc gag ctg caa gtg gag ctc ccc ga - #a gtg cat acc aac agc
1862
Asp Ile Gly Glu Leu Gln Val Glu Leu Pro Gl - #u Val His Thr Asn Ser
465          - #       470          - #       475
- - tgt gac aac atc tcc cag ttc tct gtg gac ag - #c atc acc agc cag gag
1910
Cys Asp Asn Ile Ser Gln Phe Ser Val Asp Se - #r Ile Thr Ser Gln Glu
480              - #   485              - #   490
- - agc aag gag cct gtg ttc att gca gca ggg ga - #c atc cgc cgg cgc ctt
1958
Ser Lys Glu Pro Val Phe Ile Ala Ala Gly As - #p Ile Arg Arg Arg Leu
495                 5 - #00                 5 - #05                 5 -
#10
- - tcg gaa cag ctg gct cat acc ccg aca gcc tt - #c aaa cga gac cca
gaa     2006
Ser Glu Gln Leu Ala His Thr Pro Thr Ala Ph - #e Lys Arg Asp Pro Glu
515  - #               520  - #               525
- - gat cct tct gca gtt gct ctc aaa gag ccc tg - #g cag gag aaa gta cgg
2054
Asp Pro Ser Ala Val Ala Leu Lys Glu Pro Tr - #p Gln Glu Lys Val Arg
530      - #           535      - #           540
- - cgg atc aga gag ggc tcc ccc tac ggc cat ct - #c ccc aat tgg cgg ctc
2102
Arg Ile Arg Glu Gly Ser Pro Tyr Gly His Le - #u Pro Asn Trp Arg Leu
545          - #       550          - #       555
- - ctg tca gtc att gtc aag tgt ggg gat gac ct - #t cgg caa gag ctt ctg
2150
Leu Ser Val Ile Val Lys Cys Gly Asp Asp Le - #u Arg Gln Glu Leu Leu
560              - #   565              - #   570
- - gcc ttt cag gtg ttg aag caa ctg cag tcc at - #t tgg gaa cag gag cga
2198
Ala Phe Gln Val Leu Lys Gln Leu Gln Ser Il - #e Trp Glu Gln Glu Arg
575                 5 - #80                 5 - #85                 5 -
#90
- - gtg ccc ctt tgg atc aag cca ata caa gat tc - #t tgt gaa att acg
act     2246
Val Pro Leu Trp Ile Lys Pro Ile Gln Asp Se - #r Cys Glu Ile Thr Thr
595  - #               600  - #               605
- - gat agt ggc atg att gaa cca gtg gtc aat gc - #t gtg tcc atc cat cag
2294
Asp Ser Gly Met Ile Glu Pro Val Val Asn Al - #a Val Ser Ile His Gln
610      - #           615      - #           620
- - gtg aag aaa cag tca cag ctc tcc ttg ctc ga - #t tac ttc cta cag gag
2342
Val Lys Lys Gln Ser Gln Leu Ser Leu Leu As - #p Tyr Phe Leu Gln Glu
625          - #       630          - #       635
- - cac ggc agt tac acc act gag gca ttc ctc ag - #t gca cag cgc aat ttt
2390
His Gly Ser Tyr Thr Thr Glu Ala Phe Leu Se - #r Ala Gln Arg Asn Phe
640              - #   645              - #   650
- - gtg caa agt tgt gct ggg tac tgc ttg gtc tg - #c tac ctg ctg caa gtc
2438
Val Gln Ser Cys Ala Gly Tyr Cys Leu Val Cy - #s Tyr Leu Leu Gln Val
655                 6 - #60                 6 - #65                 6 -
#70
- - aag gac aga cac aat ggg aat atc ctt ttg ga - #c gca gaa ggc cac
atc     2486
Lys Asp Arg His Asn Gly Asn Ile Leu Leu As - #p Ala Glu Gly His Ile
675  - #               680  - #               685
- - atc cac atc gac ttt ggc ttc atc ctc tcc ag - #c tca ccc cga aat ctg
2534
Ile His Ile Asp Phe Gly Phe Ile Leu Ser Se - #r Ser Pro Arg Asn Leu
690      - #           695      - #           700
- - ggc ttt gag acg tca gcc ttt aag ctg acc ac - #a gag ttt gtg gat gtg
2582
Gly Phe Glu Thr Ser Ala Phe Lys Leu Thr Th - #r Glu Phe Val Asp Val
705          - #       710          - #       715
- - atg ggc ggc ctg gat ggc gac atg ttc aac ta - #c tat aag atg ctg atg
2630
Met Gly Gly Leu Asp Gly Asp Met Phe Asn Ty - #r Tyr Lys Met Leu Met
720              - #   725              - #   730
- - ctg caa ggg ctg att gcc gct cgg aaa cac at - #g gac aag gtg gtg cag
2678
Leu Gln Gly Leu Ile Ala Ala Arg Lys His Me - #t Asp Lys Val Val Gln
735                 7 - #40                 7 - #45                 7 -
#50
- - atc gtg gag atc atg cag caa ggt tct cag ct - #t cct tgc ttc cat
ggc     2726
Ile Val Glu Ile Met Gln Gln Gly Ser Gln Le - #u Pro Cys Phe His Gly
755  - #               760  - #               765
- - tcc agc acc att cga aac ctc aaa gag agg tt - #c cac atg agc atg act
2774
Ser Ser Thr Ile Arg Asn Leu Lys Glu Arg Ph - #e His Met Ser Met Thr
770      - #           775      - #           780
- - gag gag cag ctg cag ctg ctg gtg gag cag at - #g gtg gat ggc agt atg
2822
Glu Glu Gln Leu Gln Leu Leu Val Glu Gln Me - #t Val Asp Gly Ser Met
785          - #       790          - #       795
- - cgg tct atc acc acc aaa ctc tat gac ggc tt - #c cag tac ctc acc aac
2870
Arg Ser Ile Thr Thr Lys Leu Tyr Asp Gly Ph - #e Gln Tyr Leu Thr Asn
800              - #   805              - #   810
- - ggc atc atg tgacacgctc ctcagcccag gagtggtggg gggtccagg - #g
2919
Gly Ile Met
815
- - caccctccct agagggccct tgtctgagaa accccaaacc aggaaacccc ac -
#ctacccaa   2979
- - ccatccaccc aagggaaatg gaaggcaaga aacacgaagg atcatgtggt aa -
#ctgcgaga   3039
- - gcttgctgag gggtgggaga gccagctgtg gggtccagac ttgttggggc tt -
#ccctgccc   3099
- - ctcctggtct gtgtcagtat taccaccaga ctgactccag gactcactgc cc -
#tccagaaa   3159
- - acagaggtga caaatgtgag ggacactggg gcctttcttc tccttgtagg gg -
#tctctcag   3219
- - aggttctttc cacaggccat cctcttattc cgttctgggg cccaggaagt gg -
#ggaagagt   3279
- - aggttctcgg tacttaggac ttgatcctgt ggttgccact ggccatgctg ct -
#gcccagct   3339
- - ctacccctcc cagggaccta cccctcccag ggaccgaccc ctggcccaag ct -
#ccccttgc   3399
- - tggcgggcgc tgcgtgggcc ctgcacttgc tgaggttccc catcatgggc aa -
#ggcaaggg   3459
- - aattcccaca gccctccagt gtactgaggg tactggccta gccatgtgga at -
#tccctacc   3519
- - ctgactcctt ccccaaaccc agggaaaaga gctctcaatt ttttattttt aa -
#tttttgtt   3579
- - tgaaataaag tccttagtta gcc           - #                  - #
3602
- -  - - <210> SEQ ID NO 31
<211> LENGTH: 829
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 31
- - Met Arg Phe Leu Glu Ala Arg Ser Leu Ala Va - #l Ala Met Gly Asp Thr
1               5 - #                 10 - #                 15
- - Val Val Glu Pro Ala Pro Leu Lys Pro Thr Se - #r Glu Pro Thr Ser Gly
20     - #             25     - #             30
- - Pro Pro Gly Asn Asn Gly Gly Ser Leu Leu Se - #r Val Ile Thr Glu Gly
35         - #         40         - #         45
- - Val Gly Glu Leu Ser Val Ile Asp Pro Glu Va - #l Ala Gln Lys Ala Cys
50             - #     55             - #     60
- - Gln Glu Val Leu Glu Lys Val Lys Leu Leu Hi - #s Gly Gly Val Ala Val
65                 - # 70                 - # 75                 - # 80
- - Ser Ser Arg Gly Thr Pro Leu Glu Leu Val As - #n Gly Asp Gly Val Asp
85 - #                 90 - #                 95
- - Ser Glu Ile Arg Cys Leu Asp Asp Pro Pro Al - #a Gln Ile Arg Glu Glu
100      - #           105      - #           110
- - Glu Asp Glu Met Gly Ala Ala Val Ala Ser Gl - #y Thr Ala Lys Gly Ala
115          - #       120          - #       125
- - Arg Arg Arg Arg Gln Asn Asn Ser Ala Lys Gl - #n Ser Trp Leu Leu Arg
130              - #   135              - #   140
- - Leu Phe Glu Ser Lys Leu Phe Asp Ile Ser Me - #t Ala Ile Ser Tyr Leu
145                 1 - #50                 1 - #55                 1 -
#60
- - Tyr Asn Ser Lys Glu Pro Gly Val Gln Ala Ty - #r Ile Gly Asn Arg
Leu
165  - #               170  - #               175
- - Phe Cys Phe Arg Asn Glu Asp Val Asp Phe Ty - #r Leu Pro Gln Leu Leu
180      - #           185      - #           190
- - Asn Met Tyr Ile His Met Asp Glu Asp Val Gl - #y Asp Ala Ile Lys Pro
195          - #       200          - #       205
- - Tyr Ile Val His Arg Cys Arg Gln Ser Ile As - #n Phe Ser Leu Gln Cys
210              - #   215              - #   220
- - Ala Leu Leu Leu Gly Ala Tyr Ser Ser Asp Me - #t His Ile Ser Thr Gln
225                 2 - #30                 2 - #35                 2 -
#40
- - Arg His Ser Arg Gly Thr Lys Leu Arg Lys Le - #u Ile Leu Ser Asp
Glu
245  - #               250  - #               255
- - Leu Lys Pro Ala His Arg Lys Arg Glu Leu Pr - #o Ser Leu Ser Pro Ala
260      - #           265      - #           270
- - Pro Asp Thr Gly Leu Ser Pro Ser Lys Arg Th - #r His Gln Arg Ser Lys
275          - #       280          - #       285
- - Ser Asp Ala Thr Ala Ser Ile Ser Leu Ser Se - #r Asn Leu Lys Arg Thr
290              - #   295              - #   300
- - Ala Ser Asn Pro Lys Val Glu Asn Glu Asp Gl - #u Glu Leu Ser Ser Ser
305                 3 - #10                 3 - #15                 3 -
#20
- - Thr Glu Ser Ile Asp Asn Ser Phe Ser Ser Pr - #o Val Arg Leu Ala
Pro
325  - #               330  - #               335
- - Glu Arg Glu Phe Ile Lys Ser Leu Met Ala Il - #e Gly Lys Arg Leu Ala
340      - #           345      - #           350
- - Thr Leu Pro Thr Lys Glu Gln Lys Thr Gln Ar - #g Leu Ile Ser Glu Leu
355          - #       360          - #       365
- - Ser Leu Leu Asn His Lys Leu Pro Ala Arg Va - #l Trp Leu Pro Thr Ala
370              - #   375              - #   380
- - Gly Phe Asp His His Val Val Arg Val Pro Hi - #s Thr Gln Ala Val Val
385                 3 - #90                 3 - #95                 4 -
#00
- - Leu Asn Ser Lys Asp Lys Ala Pro Tyr Leu Il - #e Tyr Val Glu Val
Leu
405  - #               410  - #               415
- - Glu Cys Glu Asn Phe Asp Thr Thr Ser Val Pr - #o Ala Arg Ile Pro Glu
420      - #           425      - #           430
- - Asn Arg Ile Arg Ser Thr Arg Ser Val Glu As - #n Leu Pro Glu Cys Gly
435          - #       440          - #       445
- - Ile Thr His Glu Gln Arg Ala Gly Ser Phe Se - #r Thr Val Pro Asn Tyr
450              - #   455              - #   460
- - Asp Asn Asp Asp Glu Ala Trp Ser Val Asp As - #p Ile Gly Glu Leu Gln
465                 4 - #70                 4 - #75                 4 -
#80
- - Val Glu Leu Pro Glu Val His Thr Asn Ser Cy - #s Asp Asn Ile Ser
Gln
485  - #               490  - #               495
- - Phe Ser Val Asp Ser Ile Thr Ser Gln Glu Se - #r Lys Glu Pro Val Phe
500      - #           505      - #           510
- - Ile Ala Ala Gly Asp Ile Arg Arg Arg Leu Se - #r Glu Gln Leu Ala His
515          - #       520          - #       525
- - Thr Pro Thr Ala Phe Lys Arg Asp Pro Glu As - #p Pro Ser Ala Val Ala
530              - #   535              - #   540
- - Leu Lys Glu Pro Trp Gln Glu Lys Val Arg Ar - #g Ile Arg Glu Gly Ser
545                 5 - #50                 5 - #55                 5 -
#60
- - Pro Tyr Gly His Leu Pro Asn Trp Arg Leu Le - #u Ser Val Ile Val
Lys
565  - #               570  - #               575
- - Cys Gly Asp Asp Leu Arg Gln Glu Leu Leu Al - #a Phe Gln Val Leu Lys
580      - #           585      - #           590
- - Gln Leu Gln Ser Ile Trp Glu Gln Glu Arg Va - #l Pro Leu Trp Ile Lys
595          - #       600          - #       605
- - Pro Ile Gln Asp Ser Cys Glu Ile Thr Thr As - #p Ser Gly Met Ile Glu
610              - #   615              - #   620
- - Pro Val Val Asn Ala Val Ser Ile His Gln Va - #l Lys Lys Gln Ser Gln
625                 6 - #30                 6 - #35                 6 -
#40
- - Leu Ser Leu Leu Asp Tyr Phe Leu Gln Glu Hi - #s Gly Ser Tyr Thr
Thr
645  - #               650  - #               655
- - Glu Ala Phe Leu Ser Ala Gln Arg Asn Phe Va - #l Gln Ser Cys Ala Gly
660      - #           665      - #           670
- - Tyr Cys Leu Val Cys Tyr Leu Leu Gln Val Ly - #s Asp Arg His Asn Gly
675          - #       680          - #       685
- - Asn Ile Leu Leu Asp Ala Glu Gly His Ile Il - #e His Ile Asp Phe Gly
690              - #   695              - #   700
- - Phe Ile Leu Ser Ser Ser Pro Arg Asn Leu Gl - #y Phe Glu Thr Ser Ala
705                 7 - #10                 7 - #15                 7 -
#20
- - Phe Lys Leu Thr Thr Glu Phe Val Asp Val Me - #t Gly Gly Leu Asp
Gly
725  - #               730  - #               735
- - Asp Met Phe Asn Tyr Tyr Lys Met Leu Met Le - #u Gln Gly Leu Ile Ala
740      - #           745      - #           750
- - Ala Arg Lys His Met Asp Lys Val Val Gln Il - #e Val Glu Ile Met Gln
755          - #       760          - #       765
- - Gln Gly Ser Gln Leu Pro Cys Phe His Gly Se - #r Ser Thr Ile Arg Asn
770              - #   775              - #   780
- - Leu Lys Glu Arg Phe His Met Ser Met Thr Gl - #u Glu Gln Leu Gln Leu
785                 7 - #90                 7 - #95                 8 -
#00
- - Leu Val Glu Gln Met Val Asp Gly Ser Met Ar - #g Ser Ile Thr Thr
Lys
805  - #               810  - #               815
- - Leu Tyr Asp Gly Phe Gln Tyr Leu Thr Asn Gl - #y Ile Met
820      - #           825
- -  - - <210> SEQ ID NO 32
<211> LENGTH: 2487
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 32
- - atgagattct tggaagctcg aagtctggct gtggccatgg gagatacagt ag -
#tggagcct     60
- - gcccccttga agccaacttc tgagcccact tctggcccac cagggaataa tg -
#gggggtcc    120
- - ctgctaagtg tcatcacgga gggggtcggg gaactatcag tgattgaccc tg -
#aggtggcc    180
- - cagaaggcct gccaggaggt gttggagaaa gtcaagcttt tgcatggagg cg -
#tggcagtc    240
- - tctagcagag gcaccccact ggagttggtc aatggggatg gtgtggacag tg -
#agatccgt    300
- - tgcctagatg atccacctgc ccagatcagg gaggaggaag atgagatggg gg -
#ccgctgtg    360
- - gcctcaggca cagccaaagg agcaagaaga cggcggcaga acaactcagc ta -
#aacagtct    420
- - tggctgctga ggctgtttga gtcaaaactg tttgacatct ccatggccat tt -
#catacctg    480
- - tataactcca aggagcctgg agtacaagcc tacattggca accggctctt ct -
#gctttcgc    540
- - aacgaggacg tggacttcta tctgccccag ttgcttaaca tgtacatcca ca -
#tggatgag    600
- - gacgtgggtg atgccattaa gccctacata gtccaccgtt gccgccagag ca -
#ttaacttt    660
- - tccctccagt gtgccctgtt gcttggggcc tattcttcag acatgcacat tt -
#ccactcaa    720
- - cgacactccc gtgggaccaa gctacggaag ctgatcctct cagatgagct aa -
#agccagct    780
- - cacaggaaga gggagctgcc ctccttgagc ccggcccctg atacagggct gt -
#ctccctcc    840
- - aaaaggactc accagcgctc taagtcagat gccactgcca gcataagtct ca -
#gcagcaac    900
- - ctgaaacgaa cagccagcaa ccctaaagtg gagaatgagg atgaggagct ct -
#cctccagc    960
- - accgagagta ttgataattc attcagttcc cctgttcgac tggctcctga ga -
#gagaattc   1020
- - atcaagtccc tgatggcgat cggcaagcgg ctggccacgc tccccaccaa ag -
#agcagaaa   1080
- - acacagaggc tgatctcaga gctctccctg ctcaaccata agctccctgc cc -
#gagtctgg   1140
- - ctgcccactg ctggctttga ccaccacgtg gtccgtgtac cccacacaca gg -
#ctgttgtc   1200
- - ctcaactcca aggacaaggc tccctacctg atttatgtgg aagtccttga at -
#gtgaaaac   1260
- - tttgacacca ccagtgtccc tgcccggatc cccgagaacc gaattcggag ta -
#cgaggtcc   1320
- - gtagaaaact tgcccgaatg tggtattacc catgagcagc gagctggcag ct -
#tcagcact   1380
- - gtgcccaact atgacaacga tgatgaggcc tggtcggtgg atgacatagg cg -
#agctgcaa   1440
- - gtggagctcc ccgaagtgca taccaacagc tgtgacaaca tctcccagtt ct -
#ctgtggac   1500
- - agcatcacca gccaggagag caaggagcct gtgttcattg cagcagggga ca -
#tccgccgg   1560
- - cgcctttcgg aacagctggc tcataccccg acagccttca aacgagaccc ag -
#aagatcct   1620
- - tctgcagttg ctctcaaaga gccctggcag gagaaagtac ggcggatcag ag -
#agggctcc   1680
- - ccctacggcc atctccccaa ttggcggctc ctgtcagtca ttgtcaagtg tg -
#gggatgac   1740
- - cttcggcaag agcttctggc ctttcaggtg ttgaagcaac tgcagtccat tt -
#gggaacag   1800
- - gagcgagtgc ccctttggat caagccaata caagattctt gtgaaattac ga -
#ctgatagt   1860
- - ggcatgattg aaccagtggt caatgctgtg tccatccatc aggtgaagaa ac -
#agtcacag   1920
- - ctctccttgc tcgattactt cctacaggag cacggcagtt acaccactga gg -
#cattcctc   1980
- - agtgcacagc gcaattttgt gcaaagttgt gctgggtact gcttggtctg ct -
#acctgctg   2040
- - caagtcaagg acagacacaa tgggaatatc cttttggacg cagaaggcca ca -
#tcatccac   2100
- - atcgactttg gcttcatcct ctccagctca ccccgaaatc tgggctttga ga -
#cgtcagcc   2160
- - tttaagctga ccacagagtt tgtggatgtg atgggcggcc tggatggcga ca -
#tgttcaac   2220
- - tactataaga tgctgatgct gcaagggctg attgccgctc ggaaacacat gg -
#acaaggtg   2280
- - gtgcagatcg tggagatcat gcagcaaggt tctcagcttc cttgcttcca tg -
#gctccagc   2340
- - accattcgaa acctcaaaga gaggttccac atgagcatga ctgaggagca gc -
#tgcagctg   2400
- - ctggtggagc agatggtgga tggcagtatg cggtctatca ccaccaaact ct -
#atgacggc   2460
- - ttccagtacc tcaccaacgg catcatg          - #                  - #
2487
- -  - - <210> SEQ ID NO 33
<211> LENGTH: 3324
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (115)..(2601)
- - <400> SEQUENCE: 33
- - ccggaattcc gggaaggccg gagcaagttt tgaagaagtc cctatcagat ta -
#cacttggt     60
- - tgactactcc ggagcagcca ctaagaggga tgaacaggcc tgcgtggaaa tt - #ga
atg      117
- #                  - #                  - #
Met
- #                  - #                  - #
- - aga ttc ttg gaa gct cga agt ctg gct gtg gc - #c atg gga gat aca
gta      165
Arg Phe Leu Glu Ala Arg Ser Leu Ala Val Al - #a Met Gly Asp Thr Val
5    - #              10    - #              15
- - gtg gag cct gcc ccc ttg aag cca act tct ga - #g ccc act tct ggc cca
213
Val Glu Pro Ala Pro Leu Lys Pro Thr Ser Gl - #u Pro Thr Ser Gly Pro
20         - #         25         - #         30
- - cca ggg aat aat ggg ggg tcc ctg cta agt gt - #c atc acg gag ggg gtc
261
Pro Gly Asn Asn Gly Gly Ser Leu Leu Ser Va - #l Ile Thr Glu Gly Val
35             - #     40             - #     45
- - ggg gaa cta tca gtg att gac cct gag gtg gc - #c cag aag gcc tgc cag
309
Gly Glu Leu Ser Val Ile Asp Pro Glu Val Al - #a Gln Lys Ala Cys Gln
50                 - # 55                 - # 60                 - # 65
- - gag gtg ttg gag aaa gtc aag ctt ttg cat gg - #a ggc gtg gca gtc tct
357
Glu Val Leu Glu Lys Val Lys Leu Leu His Gl - #y Gly Val Ala Val Ser
70 - #                 75 - #                 80
- - agc aga ggc acc cca ctg gag ttg gtc aat gg - #g gat ggt gtg gac agt
405
Ser Arg Gly Thr Pro Leu Glu Leu Val Asn Gl - #y Asp Gly Val Asp Ser
85     - #             90     - #             95
- - gag atc cgt tgc cta gat gat cca cct gcc ca - #g atc agg gag gag gaa
453
Glu Ile Arg Cys Leu Asp Asp Pro Pro Ala Gl - #n Ile Arg Glu Glu Glu
100          - #       105          - #       110
- - gat gag atg ggg gcc gct gtg gcc tca ggc ac - #a gcc aaa gga gca aga
501
Asp Glu Met Gly Ala Ala Val Ala Ser Gly Th - #r Ala Lys Gly Ala Arg
115              - #   120              - #   125
- - aga cgg cgg cag aac aac tca gct aaa cag tc - #t tgg ctg ctg agg ctg
549
Arg Arg Arg Gln Asn Asn Ser Ala Lys Gln Se - #r Trp Leu Leu Arg Leu
130                 1 - #35                 1 - #40                 1 -
#45
- - ttt gag tca aaa ctg ttt gac atc tcc atg gc - #c att tca tac ctg
tat      597
Phe Glu Ser Lys Leu Phe Asp Ile Ser Met Al - #a Ile Ser Tyr Leu Tyr
150  - #               155  - #               160
- - aac tcc aag gag cct gga gta caa gcc tac at - #t ggc aac cgg ctc ttc
645
Asn Ser Lys Glu Pro Gly Val Gln Ala Tyr Il - #e Gly Asn Arg Leu Phe
165      - #           170      - #           175
- - tgc ttt cgc aac gag gac gtg gac ttc tat ct - #g ccc cag ttg ctt aac
693
Cys Phe Arg Asn Glu Asp Val Asp Phe Tyr Le - #u Pro Gln Leu Leu Asn
180          - #       185          - #       190
- - atg tac atc cac atg gat gag gac gtg ggt ga - #t gcc att aag ccc tac
741
Met Tyr Ile His Met Asp Glu Asp Val Gly As - #p Ala Ile Lys Pro Tyr
195              - #   200              - #   205
- - ata gtc cac cgt tgc cgc cag agc att aac tt - #t tcc ctc cag tgt gcc
789
Ile Val His Arg Cys Arg Gln Ser Ile Asn Ph - #e Ser Leu Gln Cys Ala
210                 2 - #15                 2 - #20                 2 -
#25
- - ctg ttg ctt ggg gcc tat tct tca gac atg ca - #c att tcc act caa
cga      837
Leu Leu Leu Gly Ala Tyr Ser Ser Asp Met Hi - #s Ile Ser Thr Gln Arg
230  - #               235  - #               240
- - cac tcc cgt ggg acc aag cta cgg aag ctg at - #c ctc tca gat gag cta
885
His Ser Arg Gly Thr Lys Leu Arg Lys Leu Il - #e Leu Ser Asp Glu Leu
245      - #           250      - #           255
- - aag cca gct cac agg aag agg gag ctg ccc tc - #c ttg agc ccg gcc cct
933
Lys Pro Ala His Arg Lys Arg Glu Leu Pro Se - #r Leu Ser Pro Ala Pro
260          - #       265          - #       270
- - gat aca ggg ctg tct ccc tcc aaa agg act ca - #c cag cgc tct aag tca
981
Asp Thr Gly Leu Ser Pro Ser Lys Arg Thr Hi - #s Gln Arg Ser Lys Ser
275              - #   280              - #   285
- - gat gcc act gcc agc ata agt ctc agc agc aa - #c ctg aaa cga aca gcc
1029
Asp Ala Thr Ala Ser Ile Ser Leu Ser Ser As - #n Leu Lys Arg Thr Ala
290                 2 - #95                 3 - #00                 3 -
#05
- - agc aac cct aaa gtg gag aat gag gat gag ga - #g ctc tcc tcc agc
acc     1077
Ser Asn Pro Lys Val Glu Asn Glu Asp Glu Gl - #u Leu Ser Ser Ser Thr
310  - #               315  - #               320
- - gag agt att gat aat tca ttc agt tcc cct gt - #t cga ctg gct cct gag
1125
Glu Ser Ile Asp Asn Ser Phe Ser Ser Pro Va - #l Arg Leu Ala Pro Glu
325      - #           330      - #           335
- - aga gaa ttc atc aag tcc ctg atg gcg atc gg - #c aag cgg ctg gcc acg
1173
Arg Glu Phe Ile Lys Ser Leu Met Ala Ile Gl - #y Lys Arg Leu Ala Thr
340          - #       345          - #       350
- - ctc ccc acc aaa gag cag aaa aca cag agg ct - #g atc tca gag ctc tcc
1221
Leu Pro Thr Lys Glu Gln Lys Thr Gln Arg Le - #u Ile Ser Glu Leu Ser
355              - #   360              - #   365
- - ctg ctc aac cat aag ctc cct gcc cga gtc tg - #g ctg ccc act gct ggc
1269
Leu Leu Asn His Lys Leu Pro Ala Arg Val Tr - #p Leu Pro Thr Ala Gly
370                 3 - #75                 3 - #80                 3 -
#85
- - ttt gac cac cac gtg gtc cgt gta ccc cac ac - #a cag gct gtt gtc
ctc     1317
Phe Asp His His Val Val Arg Val Pro His Th - #r Gln Ala Val Val Leu
390  - #               395  - #               400
- - aac tcc aag gac aag gct ccc tac ctg att ta - #t gtg gaa gtc ctt gaa
1365
Asn Ser Lys Asp Lys Ala Pro Tyr Leu Ile Ty - #r Val Glu Val Leu Glu
405      - #           410      - #           415
- - tgt gaa aac ttt gac acc acc agt gtc cct gc - #c cgg atc ccc gag aac
1413
Cys Glu Asn Phe Asp Thr Thr Ser Val Pro Al - #a Arg Ile Pro Glu Asn
420          - #       425          - #       430
- - cga att cgg agt acg agg tcc gta gaa aac tt - #g ccc gaa tgt ggt att
1461
Arg Ile Arg Ser Thr Arg Ser Val Glu Asn Le - #u Pro Glu Cys Gly Ile
435              - #   440              - #   445
- - acc cat gag cag cga gct ggc agc ttc agc ac - #t gtg ccc aac tat gac
1509
Thr His Glu Gln Arg Ala Gly Ser Phe Ser Th - #r Val Pro Asn Tyr Asp
450                 4 - #55                 4 - #60                 4 -
#65
- - aac gat gat gag gcc tgg tcg gtg gat gac at - #a ggc gag ctg caa
gtg     1557
Asn Asp Asp Glu Ala Trp Ser Val Asp Asp Il - #e Gly Glu Leu Gln Val
470  - #               475  - #               480
- - gag ctc ccc gaa gtg cat acc aac agc tgt ga - #c aac atc tcc cag ttc
1605
Glu Leu Pro Glu Val His Thr Asn Ser Cys As - #p Asn Ile Ser Gln Phe
485      - #           490      - #           495
- - tct gtg gac agc atc acc agc cag gag agc aa - #g gag cct gtg ttc att
1653
Ser Val Asp Ser Ile Thr Ser Gln Glu Ser Ly - #s Glu Pro Val Phe Ile
500          - #       505          - #       510
- - gca gca ggg gac atc cgc cgg cgc ctt tcg ga - #a cag ctg gct cat acc
1701
Ala Ala Gly Asp Ile Arg Arg Arg Leu Ser Gl - #u Gln Leu Ala His Thr
515              - #   520              - #   525
- - ccg aca gcc ttc aaa cga gac cca gaa gat cc - #t tct gca gtt gct ctc
1749
Pro Thr Ala Phe Lys Arg Asp Pro Glu Asp Pr - #o Ser Ala Val Ala Leu
530                 5 - #35                 5 - #40                 5 -
#45
- - aaa gag ccc tgg cag gag aaa gta cgg cgg at - #c aga gag ggc tcc
ccc     1797
Lys Glu Pro Trp Gln Glu Lys Val Arg Arg Il - #e Arg Glu Gly Ser Pro
550  - #               555  - #               560
- - tac ggc cat ctc ccc aat tgg cgg ctc ctg tc - #a gtc att gtc aag tgt
1845
Tyr Gly His Leu Pro Asn Trp Arg Leu Leu Se - #r Val Ile Val Lys Cys
565      - #           570      - #           575
- - ggg gat gac ctt cgg caa gag ctt ctg gcc tt - #t cag gtg ttg aag caa
1893
Gly Asp Asp Leu Arg Gln Glu Leu Leu Ala Ph - #e Gln Val Leu Lys Gln
580          - #       585          - #       590
- - ctg cag tcc att tgg gaa cag gag cga gtg cc - #c ctt tgg atc aag cca
1941
Leu Gln Ser Ile Trp Glu Gln Glu Arg Val Pr - #o Leu Trp Ile Lys Pro
595              - #   600              - #   605
- - ata caa gat tct tgt gaa att acg act gat ag - #t ggc atg att gaa cca
1989
Ile Gln Asp Ser Cys Glu Ile Thr Thr Asp Se - #r Gly Met Ile Glu Pro
610                 6 - #15                 6 - #20                 6 -
#25
- - gtg gtc aat gct gtg tcc atc cat cag gtg aa - #g aaa cag tca cag
ctc     2037
Val Val Asn Ala Val Ser Ile His Gln Val Ly - #s Lys Gln Ser Gln Leu
630  - #               635  - #               640
- - tcc ttg ctc gat tac ttc cta cag gag cac gg - #c agt tac acc act gag
2085
Ser Leu Leu Asp Tyr Phe Leu Gln Glu His Gl - #y Ser Tyr Thr Thr Glu
645      - #           650      - #           655
- - gca ttc ctc agt gca cag cgc aat ttt gtg ca - #a agt tgt gct ggg tac
2133
Ala Phe Leu Ser Ala Gln Arg Asn Phe Val Gl - #n Ser Cys Ala Gly Tyr
660          - #       665          - #       670
- - tgc ttg gtc tgc tac ctg ctg caa gtc aag ga - #c aga cac aat ggg aat
2181
Cys Leu Val Cys Tyr Leu Leu Gln Val Lys As - #p Arg His Asn Gly Asn
675              - #   680              - #   685
- - atc ctt ttg gac gca gaa ggc cac atc atc ca - #c atc gac ttt ggc ttc
2229
Ile Leu Leu Asp Ala Glu Gly His Ile Ile Hi - #s Ile Asp Phe Gly Phe
690                 6 - #95                 7 - #00                 7 -
#05
- - atc ctc tcc agc tca ccc cga aat ctg ggc tt - #t gag acg tca gcc
ttt     2277
Ile Leu Ser Ser Ser Pro Arg Asn Leu Gly Ph - #e Glu Thr Ser Ala Phe
710  - #               715  - #               720
- - aag ctg acc aca gag ttt gtg gat gtg atg gg - #c ggc ctg gat ggc gac
2325
Lys Leu Thr Thr Glu Phe Val Asp Val Met Gl - #y Gly Leu Asp Gly Asp
725      - #           730      - #           735
- - atg ttc aac tac tat aag atg ctg atg ctg ca - #a ggg ctg att gcc gct
2373
Met Phe Asn Tyr Tyr Lys Met Leu Met Leu Gl - #n Gly Leu Ile Ala Ala
740          - #       745          - #       750
- - cgg aaa cac atg gac aag gtg gtg cag atc gt - #g gag atc atg cag caa
2421
Arg Lys His Met Asp Lys Val Val Gln Ile Va - #l Glu Ile Met Gln Gln
755              - #   760              - #   765
- - ggt tct cag ctt cct tgc ttc cat ggc tcc ag - #c acc att cga aac ctc
2469
Gly Ser Gln Leu Pro Cys Phe His Gly Ser Se - #r Thr Ile Arg Asn Leu
770                 7 - #75                 7 - #80                 7 -
#85
- - aaa gag agg ttc cac atg agc atg act gag ga - #g cag ctg cag ctg
ctg     2517
Lys Glu Arg Phe His Met Ser Met Thr Glu Gl - #u Gln Leu Gln Leu Leu
790  - #               795  - #               800
- - gtg gag cag atg gtg gat ggc agt atg cgg tc - #t atc acc acc aaa ctc
2565
Val Glu Gln Met Val Asp Gly Ser Met Arg Se - #r Ile Thr Thr Lys Leu
805      - #           810      - #           815
- - tat gac ggc ttc cag tac ctc acc aac ggc at - #c atg tgacacgctc
2611
Tyr Asp Gly Phe Gln Tyr Leu Thr Asn Gly Il - #e Met
820          - #       825
- - ctcagcccag gagtggtggg gggtccaggg caccctccct agagggccct tg -
#tctgagaa   2671
- - accccaaacc aggaaacccc acctacccaa ccatccaccc aagggaaatg ga -
#aggcaaga   2731
- - aacacgaagg atcatgtggt aactgcgaga gcttgctgag gggtgggaga gc -
#cagctgtg   2791
- - gggtccagac ttgttggggc ttccctgccc ctcctggtct gtgtcagtat ta -
#ccaccaga   2851
- - ctgactccag gactcactgc cctccagaaa acagaggtga caaatgtgag gg -
#acactggg   2911
- - gcctttcttc tccttgtagg ggtctctcag aggttctttc cacaggccat cc -
#tcttattc   2971
- - cgttctgggg cccaggaagt ggggaagagt aggttctcgg tacttaggac tt -
#gatcctgt   3031
- - ggttgccact ggccatgctg ctgcccagct ctacccctcc cagggaccta cc -
#cctcccag   3091
- - ggaccgaccc ctggcccaag ctccccttgc tggcgggcgc tgcgtgggcc ct -
#gcacttgc   3151
- - tgaggttccc catcatgggc aaggcaaggg aattcccaca gccctccagt gt -
#actgaggg   3211
- - tactggccta gccatgtgga attccctacc ctgactcctt ccccaaaccc ag -
#ggaaaaga   3271
- - gctctcaatt ttttattttt aatttttgtt tgaaataaag tccttagtta gc - #c
3324
- -  - - <210> SEQ ID NO 34
<211> LENGTH: 810
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 34
- - Met Pro Met Asp Leu Ile Leu Val Val Trp Ph - #e Cys Val Cys Thr Ala
1               5 - #                 10 - #                 15
- - Arg Thr Val Val Gly Phe Gly Met Asp Pro As - #p Leu Gln Met Asp Ile
20     - #             25     - #             30
- - Val Thr Glu Leu Asp Leu Val Asn Thr Thr Le - #u Gly Val Ala Gln Val
35         - #         40         - #         45
- - Ser Gly Met His Asn Ala Ser Lys Ala Phe Le - #u Phe Gln Asp Ile Glu
50             - #     55             - #     60
- - Arg Glu Ile His Ala Ala Pro His Val Ser Gl - #u Lys Leu Ile Gln Leu
65                 - # 70                 - # 75                 - # 80
- - Phe Gln Asn Lys Ser Glu Phe Thr Ile Leu Al - #a Thr Val Gln Gln Lys
85 - #                 90 - #                 95
- - Pro Ser Thr Ser Gly Val Ile Leu Ser Ile Ar - #g Glu Leu Glu His Ser
100      - #           105      - #           110
- - Tyr Phe Glu Leu Glu Ser Ser Gly Leu Arg As - #p Glu Ile Arg Tyr His
115          - #       120          - #       125
- - Tyr Ile His Asn Gly Lys Pro Arg Thr Glu Al - #a Leu Pro Tyr Arg Met
130              - #   135              - #   140
- - Ala Asp Gly Gln Trp His Lys Val Ala Leu Se - #r Val Ser Ala Ser His
145                 1 - #50                 1 - #55                 1 -
#60
- - Leu Leu Leu His Val Asp Cys Asn Arg Ile Ty - #r Glu Arg Val Ile
Asp
165  - #               170  - #               175
- - Pro Pro Asp Thr Asn Leu Pro Pro Gly Ile As - #n Leu Trp Leu Gly Gln
180      - #           185      - #           190
- - Arg Asn Gln Lys His Gly Leu Phe Lys Gly Il - #e Ile Gln Asp Gly Lys
195          - #       200          - #       205
- - Ile Ile Phe Met Pro Asn Gly Tyr Ile Thr Gl - #n Cys Pro Asn Leu Asn
210              - #   215              - #   220
- - His Thr Cys Pro Thr Cys Ser Asp Phe Leu Se - #r Leu Val Gln Gly Ile
225                 2 - #30                 2 - #35                 2 -
#40
- - Met Asp Leu Gln Glu Leu Leu Ala Lys Met Th - #r Ala Lys Leu Asn
Tyr
245  - #               250  - #               255
- - Ala Glu Thr Arg Leu Ser Gln Leu Glu Asn Cy - #s His Cys Glu Lys Thr
260      - #           265      - #           270
- - Cys Gln Val Ser Gly Leu Leu Tyr Arg Asp Gl - #n Asp Ser Trp Val Asp
275          - #       280          - #       285
- - Gly Asp His Cys Arg Asn Cys Thr Cys Lys Se - #r Gly Ala Val Glu Cys
290              - #   295              - #   300
- - Arg Arg Met Ser Cys Pro Pro Leu Asn Cys Se - #r Pro Asp Ser Leu Pro
305                 3 - #10                 3 - #15                 3 -
#20
- - Val His Ile Ala Gly Gln Cys Cys Lys Val Cy - #s Arg Pro Lys Cys
Ile
325  - #               330  - #               335
- - Tyr Gly Gly Lys Val Leu Ala Glu Gly Gln Ar - #g Ile Leu Thr Lys Ser
340      - #           345      - #           350
- - Cys Arg Glu Cys Arg Gly Gly Val Leu Val Ly - #s Ile Thr Glu Met Cys
355          - #       360          - #       365
- - Pro Pro Leu Asn Cys Ser Glu Lys Asp His Il - #e Leu Pro Glu Asn Gln
370              - #   375              - #   380
- - Cys Cys Arg Val Cys Arg Gly His Asn Phe Cy - #s Ala Glu Gly Pro Lys
385                 3 - #90                 3 - #95                 4 -
#00
- - Cys Gly Glu Asn Ser Glu Cys Lys Asn Trp As - #n Thr Lys Ala Thr
Cys
405  - #               410  - #               415
- - Glu Cys Lys Ser Gly Tyr Ile Ser Val Gln Gl - #y Asp Ser Ala Tyr Cys
420      - #           425      - #           430
- - Glu Asp Ile Asp Glu Cys Ala Ala Lys Met Hi - #s Tyr Cys His Ala Asn
435          - #       440          - #       445
- - Thr Val Cys Val Asn Leu Pro Gly Leu Tyr Ar - #g Cys Asp Cys Val Pro
450              - #   455              - #   460
- - Gly Tyr Ile Arg Val Asp Asp Phe Ser Cys Th - #r Glu His Asp Glu Cys
465                 4 - #70                 4 - #75                 4 -
#80
- - Gly Ser Gly Gln His Asn Cys Asp Glu Asn Al - #a Ile Cys Thr Asn
Thr
485  - #               490  - #               495
- - Val Gln Gly His Ser Cys Thr Cys Lys Pro Gl - #y Tyr Val Gly Asn Gly
500      - #           505      - #           510
- - Thr Ile Cys Arg Ala Phe Cys Glu Glu Gly Cy - #s Arg Tyr Gly Gly Thr
515          - #       520          - #       525
- - Cys Val Ala Pro Asn Lys Cys Val Cys Pro Se - #r Gly Phe Thr Gly Ser
530              - #   535              - #   540
- - His Cys Glu Lys Asp Ile Asp Glu Cys Ser Gl - #u Gly Ile Ile Glu Cys
545                 5 - #50                 5 - #55                 5 -
#60
- - His Asn His Ser Arg Cys Val Asn Leu Pro Gl - #y Trp Tyr His Cys
Glu
565  - #               570  - #               575
- - Cys Arg Ser Gly Phe His Asp Asp Gly Thr Ty - #r Ser Leu Ser Gly Glu
580      - #           585      - #           590
- - Ser Cys Ile Asp Ile Asp Glu Cys Ala Leu Ar - #g Thr His Thr Cys Trp
595          - #       600          - #       605
- - Asn Asp Ser Ala Cys Ile Asn Leu Ala Gly Gl - #y Phe Asp Cys Leu Cys
610              - #   615              - #   620
- - Pro Ser Gly Pro Ser Cys Ser Gly Asp Cys Pr - #o His Glu Gly Gly Leu
625                 6 - #30                 6 - #35                 6 -
#40
- - Lys His Asn Gly Gln Val Trp Thr Leu Lys Gl - #u Asp Arg Cys Ser
Val
645  - #               650  - #               655
- - Cys Ser Cys Lys Asp Gly Lys Ile Phe Cys Ar - #g Arg Thr Ala Cys Asp
660      - #           665      - #           670
- - Cys Gln Asn Pro Ser Ala Asp Leu Phe Cys Cy - #s Pro Glu Cys Asp Thr
675          - #       680          - #       685
- - Arg Val Thr Ser Gln Cys Leu Asp Gln Asn Gl - #y His Lys Leu Tyr Arg
690              - #   695              - #   700
- - Ser Gly Asp Asn Trp Thr His Ser Cys Gln Gl - #n Cys Arg Cys Leu Glu
705                 7 - #10                 7 - #15                 7 -
#20
- - Gly Glu Val Asp Cys Trp Pro Leu Thr Cys Pr - #o Asn Leu Ser Cys
Glu
725  - #               730  - #               735
- - Tyr Thr Ala Ile Leu Glu Gly Glu Cys Cys Pr - #o Arg Cys Val Ser Asp
740      - #           745      - #           750
- - Pro Cys Leu Ala Asp Asn Ile Thr Tyr Asp Il - #e Arg Lys Thr Cys Leu
755          - #       760          - #       765
- - Asp Ser Tyr Gly Val Ser Arg Leu Ser Gly Se - #r Val Trp Thr Met Ala
770              - #   775              - #   780
- - Gly Ser Pro Cys Thr Thr Cys Lys Cys Lys As - #n Gly Arg Val Cys Cys
785                 7 - #90                 7 - #95                 8 -
#00
- - Ser Val Asp Phe Glu Cys Leu Gln Asn Asn
805  - #               810
- -  - - <210> SEQ ID NO 35
<211> LENGTH: 2430
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 35
- - atgccgatgg atttgatttt agttgtgtgg ttctgtgtgt gcactgccag ga -
#cagtggtg     60
- - ggctttggga tggaccctga ccttcagatg gatatcgtca ccgagcttga cc -
#ttgtgaac    120
- - accacccttg gagttgctca ggtgtctgga atgcacaatg ccagcaaagc at -
#ttttattt    180
- - caagacatag aaagagagat ccatgcagct cctcatgtga gtgagaaatt aa -
#ttcagctg    240
- - ttccagaaca agagtgaatt caccattttg gccactgtac agcagaagcc at -
#ccacttca    300
- - ggagtgatac tgtccattcg agaactggag cacagctatt ttgaactgga ga -
#gcagtggc    360
- - ctgagggatg agattcggta tcactacata cacaatggga agccaaggac ag -
#aggcactt    420
- - ccttaccgca tggcagatgg acaatggcac aaggttgcac tgtcagttag cg -
#cctctcat    480
- - ctcctgctcc atgtcgactg taacaggatt tatgagcgtg tgatagaccc tc -
#cagatacc    540
- - aaccttcccc caggaatcaa tttatggctt ggccagcgca accaaaagca tg -
#gcttattc    600
- - aaagggatca tccaagatgg gaagatcatc tttatgccga atggatatat aa -
#cacagtgt    660
- - ccaaatctaa atcacacttg cccaacctgc agtgatttct taagcctggt gc -
#aaggaata    720
- - atggatttac aagagctttt ggccaagatg actgcaaaac taaattatgc ag -
#agacaaga    780
- - cttagtcaat tggaaaactg tcattgtgag aagacttgtc aagtgagtgg ac -
#tgctctat    840
- - cgagatcaag actcttgggt agatggtgac cattgcagga actgcacttg ca -
#aaagtggt    900
- - gccgtggaat gccgaaggat gtcctgtccc cctctcaatt gctccccaga ct -
#ccctccca    960
- - gtacacattg ctggccagtg ctgtaaggtc tgccgaccaa aatgtatcta tg -
#gaggaaaa   1020
- - gttcttgcag aaggccagcg gattttaacc aagagctgtc gggaatgccg ag -
#gtggagtt   1080
- - ttagtaaaaa ttacagaaat gtgtcctcct ttgaactgct cagaaaagga tc -
#acattctt   1140
- - cctgagaatc agtgctgccg tgtctgtaga ggtcataact tttgtgcaga ag -
#gacctaaa   1200
- - tgtggtgaaa actcagagtg caaaaactgg aatacaaaag ctacttgtga gt -
#gcaagagt   1260
- - ggttacatct ctgtccaggg agactctgcc tactgtgaag atattgatga gt -
#gtgcagct   1320
- - aagatgcatt actgtcatgc caatactgtg tgtgtcaacc ttcctgggtt at -
#atcgctgt   1380
- - gactgtgtcc caggatacat tcgtgtggat gacttctctt gtacagaaca cg -
#atgaatgt   1440
- - ggcagcggcc agcacaactg tgatgagaat gccatctgca ccaacactgt cc -
#agggacac   1500
- - agctgcacct gcaaaccggg ctacgtgggg aacgggacca tctgcagagc tt -
#tctgtgaa   1560
- - gagggctgca gatacggtgg aacgtgtgtg gctcccaaca aatgtgtctg tc -
#catctgga   1620
- - ttcacaggaa gccactgcga gaaagatatt gatgaatgtt cagagggaat ca -
#ttgagtgc   1680
- - cacaaccatt cccgctgcgt taacctgcca gggtggtacc actgtgagtg ca -
#gaagcggt   1740
- - ttccatgacg atgggaccta ttcactgtcc ggggagtcct gtattgacat tg -
#atgaatgt   1800
- - gccttaagaa ctcacacctg ttggaacgat tctgcctgca tcaacctggc ag -
#ggggtttt   1860
- - gactgtctct gcccctctgg gccctcctgc tctggtgact gtcctcatga ag -
#gggggctg   1920
- - aagcacaatg gccaggtgtg gaccttgaaa gaagacaggt gttctgtctg ct -
#cctgcaag   1980
- - gatggcaaga tattctgccg acggacagct tgtgattgcc agaatccaag tg -
#ctgaccta   2040
- - ttctgttgcc cagaatgtga caccagagtc acaagtcaat gtttagacca aa -
#atggtcac   2100
- - aagctgtatc gaagtggaga caattggacc catagctgtc agcagtgtcg gt -
#gtctggaa   2160
- - ggagaggtag attgctggcc actcacttgc cccaacttga gctgtgagta ta -
#cagctatc   2220
- - ttagaagggg aatgttgtcc ccgctgtgtc agtgacccct gcctagctga ta -
#acatcacc   2280
- - tatgacatca gaaaaacttg cctggacagc tatggtgttt cacggcttag tg -
#gctcagtg   2340
- - tggacgatgg ctggatctcc ctgcacaacc tgtaaatgca agaatggaag ag -
#tctgttgt   2400
- - tctgtggatt ttgagtgtct tcaaaataat         - #                  - #
2430
- -  - - <210> SEQ ID NO 36
<211> LENGTH: 2977
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (103)..(2532)
- - <400> SEQUENCE: 36
- - tagcaagttt ggcggctcca agccaggcgc gcctcaggat ccaggctcat tt -
#gcttccac     60
- - ctagcttcgg tgccccctgc taggcgggga ccctcgagag cg atg ccg - # atg gat
114
- #                  - #           Met Pro Met Asp
- #                  - #             1
- - ttg att tta gtt gtg tgg ttc tgt gtg tgc ac - #t gcc agg aca gtg gtg
162
Leu Ile Leu Val Val Trp Phe Cys Val Cys Th - #r Ala Arg Thr Val Val
5                - #  10                - #  15                - #  20
- - ggc ttt ggg atg gac cct gac ctt cag atg ga - #t atc gtc acc gag ctt
210
Gly Phe Gly Met Asp Pro Asp Leu Gln Met As - #p Ile Val Thr Glu Leu
25 - #                 30 - #                 35
- - gac ctt gtg aac acc acc ctt gga gtt gct ca - #g gtg tct gga atg cac
258
Asp Leu Val Asn Thr Thr Leu Gly Val Ala Gl - #n Val Ser Gly Met His
40     - #             45     - #             50
- - aat gcc agc aaa gca ttt tta ttt caa gac at - #a gaa aga gag atc cat
306
Asn Ala Ser Lys Ala Phe Leu Phe Gln Asp Il - #e Glu Arg Glu Ile His
55         - #         60         - #         65
- - gca gct cct cat gtg agt gag aaa tta att ca - #g ctg ttc cag aac aag
354
Ala Ala Pro His Val Ser Glu Lys Leu Ile Gl - #n Leu Phe Gln Asn Lys
70             - #     75             - #     80
- - agt gaa ttc acc att ttg gcc act gta cag ca - #g aag cca tcc act tca
402
Ser Glu Phe Thr Ile Leu Ala Thr Val Gln Gl - #n Lys Pro Ser Thr Ser
85                 - # 90                 - # 95                 - #100
- - gga gtg ata ctg tcc att cga gaa ctg gag ca - #c agc tat ttt gaa ctg
450
Gly Val Ile Leu Ser Ile Arg Glu Leu Glu Hi - #s Ser Tyr Phe Glu Leu
105  - #               110  - #               115
- - gag agc agt ggc ctg agg gat gag att cgg ta - #t cac tac ata cac aat
498
Glu Ser Ser Gly Leu Arg Asp Glu Ile Arg Ty - #r His Tyr Ile His Asn
120      - #           125      - #           130
- - ggg aag cca agg aca gag gca ctt cct tac cg - #c atg gca gat gga caa
546
Gly Lys Pro Arg Thr Glu Ala Leu Pro Tyr Ar - #g Met Ala Asp Gly Gln
135          - #       140          - #       145
- - tgg cac aag gtt gca ctg tca gtt agc gcc tc - #t cat ctc ctg ctc cat
594
Trp His Lys Val Ala Leu Ser Val Ser Ala Se - #r His Leu Leu Leu His
150              - #   155              - #   160
- - gtc gac tgt aac agg att tat gag cgt gtg at - #a gac cct cca gat acc
642
Val Asp Cys Asn Arg Ile Tyr Glu Arg Val Il - #e Asp Pro Pro Asp Thr
165                 1 - #70                 1 - #75                 1 -
#80
- - aac ctt ccc cca gga atc aat tta tgg ctt gg - #c cag cgc aac caa
aag      690
Asn Leu Pro Pro Gly Ile Asn Leu Trp Leu Gl - #y Gln Arg Asn Gln Lys
185  - #               190  - #               195
- - cat ggc tta ttc aaa ggg atc atc caa gat gg - #g aag atc atc ttt atg
738
His Gly Leu Phe Lys Gly Ile Ile Gln Asp Gl - #y Lys Ile Ile Phe Met
200      - #           205      - #           210
- - ccg aat gga tat ata aca cag tgt cca aat ct - #a aat cac act tgc cca
786
Pro Asn Gly Tyr Ile Thr Gln Cys Pro Asn Le - #u Asn His Thr Cys Pro
215          - #       220          - #       225
- - acc tgc agt gat ttc tta agc ctg gtg caa gg - #a ata atg gat tta caa
834
Thr Cys Ser Asp Phe Leu Ser Leu Val Gln Gl - #y Ile Met Asp Leu Gln
230              - #   235              - #   240
- - gag ctt ttg gcc aag atg act gca aaa cta aa - #t tat gca gag aca aga
882
Glu Leu Leu Ala Lys Met Thr Ala Lys Leu As - #n Tyr Ala Glu Thr Arg
245                 2 - #50                 2 - #55                 2 -
#60
- - ctt agt caa ttg gaa aac tgt cat tgt gag aa - #g act tgt caa gtg
agt      930
Leu Ser Gln Leu Glu Asn Cys His Cys Glu Ly - #s Thr Cys Gln Val Ser
265  - #               270  - #               275
- - gga ctg ctc tat cga gat caa gac tct tgg gt - #a gat ggt gac cat tgc
978
Gly Leu Leu Tyr Arg Asp Gln Asp Ser Trp Va - #l Asp Gly Asp His Cys
280      - #           285      - #           290
- - agg aac tgc act tgc aaa agt ggt gcc gtg ga - #a tgc cga agg atg tcc
1026
Arg Asn Cys Thr Cys Lys Ser Gly Ala Val Gl - #u Cys Arg Arg Met Ser
295          - #       300          - #       305
- - tgt ccc cct ctc aat tgc tcc cca gac tcc ct - #c cca gta cac att gct
1074
Cys Pro Pro Leu Asn Cys Ser Pro Asp Ser Le - #u Pro Val His Ile Ala
310              - #   315              - #   320
- - ggc cag tgc tgt aag gtc tgc cga cca aaa tg - #t atc tat gga gga aaa
1122
Gly Gln Cys Cys Lys Val Cys Arg Pro Lys Cy - #s Ile Tyr Gly Gly Lys
325                 3 - #30                 3 - #35                 3 -
#40
- - gtt ctt gca gaa ggc cag cgg att tta acc aa - #g agc tgt cgg gaa
tgc     1170
Val Leu Ala Glu Gly Gln Arg Ile Leu Thr Ly - #s Ser Cys Arg Glu Cys
345  - #               350  - #               355
- - cga ggt gga gtt tta gta aaa att aca gaa at - #g tgt cct cct ttg aac
1218
Arg Gly Gly Val Leu Val Lys Ile Thr Glu Me - #t Cys Pro Pro Leu Asn
360      - #           365      - #           370
- - tgc tca gaa aag gat cac att ctt cct gag aa - #t cag tgc tgc cgt gtc
1266
Cys Ser Glu Lys Asp His Ile Leu Pro Glu As - #n Gln Cys Cys Arg Val
375          - #       380          - #       385
- - tgt aga ggt cat aac ttt tgt gca gaa gga cc - #t aaa tgt ggt gaa aac
1314
Cys Arg Gly His Asn Phe Cys Ala Glu Gly Pr - #o Lys Cys Gly Glu Asn
390              - #   395              - #   400
- - tca gag tgc aaa aac tgg aat aca aaa gct ac - #t tgt gag tgc aag agt
1362
Ser Glu Cys Lys Asn Trp Asn Thr Lys Ala Th - #r Cys Glu Cys Lys Ser
405                 4 - #10                 4 - #15                 4 -
#20
- - ggt tac atc tct gtc cag gga gac tct gcc ta - #c tgt gaa gat att
gat     1410
Gly Tyr Ile Ser Val Gln Gly Asp Ser Ala Ty - #r Cys Glu Asp Ile Asp
425  - #               430  - #               435
- - gag tgt gca gct aag atg cat tac tgt cat gc - #c aat act gtg tgt gtc
1458
Glu Cys Ala Ala Lys Met His Tyr Cys His Al - #a Asn Thr Val Cys Val
440      - #           445      - #           450
- - aac ctt cct ggg tta tat cgc tgt gac tgt gt - #c cca gga tac att cgt
1506
Asn Leu Pro Gly Leu Tyr Arg Cys Asp Cys Va - #l Pro Gly Tyr Ile Arg
455          - #       460          - #       465
- - gtg gat gac ttc tct tgt aca gaa cac gat ga - #a tgt ggc agc ggc cag
1554
Val Asp Asp Phe Ser Cys Thr Glu His Asp Gl - #u Cys Gly Ser Gly Gln
470              - #   475              - #   480
- - cac aac tgt gat gag aat gcc atc tgc acc aa - #c act gtc cag gga cac
1602
His Asn Cys Asp Glu Asn Ala Ile Cys Thr As - #n Thr Val Gln Gly His
485                 4 - #90                 4 - #95                 5 -
#00
- - agc tgc acc tgc aaa ccg ggc tac gtg ggg aa - #c ggg acc atc tgc
aga     1650
Ser Cys Thr Cys Lys Pro Gly Tyr Val Gly As - #n Gly Thr Ile Cys Arg
505  - #               510  - #               515
- - gct ttc tgt gaa gag ggc tgc aga tac ggt gg - #a acg tgt gtg gct ccc
1698
Ala Phe Cys Glu Glu Gly Cys Arg Tyr Gly Gl - #y Thr Cys Val Ala Pro
520      - #           525      - #           530
- - aac aaa tgt gtc tgt cca tct gga ttc aca gg - #a agc cac tgc gag aaa
1746
Asn Lys Cys Val Cys Pro Ser Gly Phe Thr Gl - #y Ser His Cys Glu Lys
535          - #       540          - #       545
- - gat att gat gaa tgt tca gag gga atc att ga - #g tgc cac aac cat tcc
1794
Asp Ile Asp Glu Cys Ser Glu Gly Ile Ile Gl - #u Cys His Asn His Ser
550              - #   555              - #   560
- - cgc tgc gtt aac ctg cca ggg tgg tac cac tg - #t gag tgc aga agc ggt
1842
Arg Cys Val Asn Leu Pro Gly Trp Tyr His Cy - #s Glu Cys Arg Ser Gly
565                 5 - #70                 5 - #75                 5 -
#80
- - ttc cat gac gat ggg acc tat tca ctg tcc gg - #g gag tcc tgt att
gac     1890
Phe His Asp Asp Gly Thr Tyr Ser Leu Ser Gl - #y Glu Ser Cys Ile Asp
585  - #               590  - #               595
- - att gat gaa tgt gcc tta aga act cac acc tg - #t tgg aac gat tct gcc
1938
Ile Asp Glu Cys Ala Leu Arg Thr His Thr Cy - #s Trp Asn Asp Ser Ala
600      - #           605      - #           610
- - tgc atc aac ctg gca ggg ggt ttt gac tgt ct - #c tgc ccc tct ggg ccc
1986
Cys Ile Asn Leu Ala Gly Gly Phe Asp Cys Le - #u Cys Pro Ser Gly Pro
615          - #       620          - #       625
- - tcc tgc tct ggt gac tgt cct cat gaa ggg gg - #g ctg aag cac aat ggc
2034
Ser Cys Ser Gly Asp Cys Pro His Glu Gly Gl - #y Leu Lys His Asn Gly
630              - #   635              - #   640
- - cag gtg tgg acc ttg aaa gaa gac agg tgt tc - #t gtc tgc tcc tgc aag
2082
Gln Val Trp Thr Leu Lys Glu Asp Arg Cys Se - #r Val Cys Ser Cys Lys
645                 6 - #50                 6 - #55                 6 -
#60
- - gat ggc aag ata ttc tgc cga cgg aca gct tg - #t gat tgc cag aat
cca     2130
Asp Gly Lys Ile Phe Cys Arg Arg Thr Ala Cy - #s Asp Cys Gln Asn Pro
665  - #               670  - #               675
- - agt gct gac cta ttc tgt tgc cca gaa tgt ga - #c acc aga gtc aca agt
2178
Ser Ala Asp Leu Phe Cys Cys Pro Glu Cys As - #p Thr Arg Val Thr Ser
680      - #           685      - #           690
- - caa tgt tta gac caa aat ggt cac aag ctg ta - #t cga agt gga gac aat
2226
Gln Cys Leu Asp Gln Asn Gly His Lys Leu Ty - #r Arg Ser Gly Asp Asn
695          - #       700          - #       705
- - tgg acc cat agc tgt cag cag tgt cgg tgt ct - #g gaa gga gag gta gat
2274
Trp Thr His Ser Cys Gln Gln Cys Arg Cys Le - #u Glu Gly Glu Val Asp
710              - #   715              - #   720
- - tgc tgg cca ctc act tgc ccc aac ttg agc tg - #t gag tat aca gct atc
2322
Cys Trp Pro Leu Thr Cys Pro Asn Leu Ser Cy - #s Glu Tyr Thr Ala Ile
725                 7 - #30                 7 - #35                 7 -
#40
- - tta gaa ggg gaa tgt tgt ccc cgc tgt gtc ag - #t gac ccc tgc cta
gct     2370
Leu Glu Gly Glu Cys Cys Pro Arg Cys Val Se - #r Asp Pro Cys Leu Ala
745  - #               750  - #               755
- - gat aac atc acc tat gac atc aga aaa act tg - #c ctg gac agc tat ggt
2418
Asp Asn Ile Thr Tyr Asp Ile Arg Lys Thr Cy - #s Leu Asp Ser Tyr Gly
760      - #           765      - #           770
- - gtt tca cgg ctt agt ggc tca gtg tgg acg at - #g gct gga tct ccc tgc
2466
Val Ser Arg Leu Ser Gly Ser Val Trp Thr Me - #t Ala Gly Ser Pro Cys
775          - #       780          - #       785
- - aca acc tgt aaa tgc aag aat gga aga gtc tg - #t tgt tct gtg gat ttt
2514
Thr Thr Cys Lys Cys Lys Asn Gly Arg Val Cy - #s Cys Ser Val Asp Phe
790              - #   795              - #   800
- - gag tgt ctt caa aat aat tgaagtattt acagtggact ca - #acgcagaa
2562
Glu Cys Leu Gln Asn Asn
805                 8 - #10
- - gaatggacga aatgaccatc caacgtgatt aaggatagga atcggtagtt tg -
#gttttttt   2622
- - gtttgttttg tttttttaac cacagataat tgccaaagtt tccacctgag ga -
#cggtgttt   2682
- - cggaggttgc cttttggacc taccactttg ctcattcttg ctaacctagt ct -
#aggtgacc   2742
- - tacagtgccg tgcatttaag tcaatggttg ttaaaagaag tttcccgtgt tg -
#taaatcat   2802
- - gtttccctta tcagatcatt tgcaaataca tttaaatgat ctcatggtaa at -
#ggttgatg   2862
- - tattttttgg gtttattttg tgtactaacc ataatagaga gagactcagc tc -
#cttttatt   2922
- - tattttgttg atttatggat caaattctaa aataaagttg cctgttgtga ct - #ttt
2977
- -  - - <210> SEQ ID NO 37
<211> LENGTH: 816
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 37
- - Met Glu Ser Arg Val Leu Leu Arg Thr Phe Cy - #s Leu Ile Phe Gly Leu
1               5 - #                 10 - #                 15
- - Gly Ala Val Trp Gly Leu Gly Val Asp Pro Se - #r Leu Gln Ile Asp Val
20     - #             25     - #             30
- - Leu Thr Glu Leu Glu Leu Gly Glu Ser Thr Th - #r Gly Val Arg Gln Val
35         - #         40         - #         45
- - Pro Gly Leu His Asn Gly Thr Lys Ala Phe Le - #u Phe Gln Asp Thr Pro
50             - #     55             - #     60
- - Arg Ser Ile Lys Ala Ser Thr Ala Thr Ala Gl - #u Gln Phe Phe Gln Lys
65                 - # 70                 - # 75                 - # 80
- - Leu Arg Asn Lys His Glu Phe Thr Ile Leu Va - #l Thr Leu Lys Gln Thr
85 - #                 90 - #                 95
- - His Leu Asn Ser Gly Val Ile Leu Ser Ile Hi - #s His Leu Asp His Arg
100      - #           105      - #           110
- - Tyr Leu Glu Leu Glu Ser Ser Gly His Arg As - #n Glu Val Arg Leu His
115          - #       120          - #       125
- - Tyr Arg Ser Gly Ser His Arg Pro His Thr Gl - #u Val Phe Pro Tyr Ile
130              - #   135              - #   140
- - Leu Ala Asp Asp Lys Trp His Lys Leu Ser Le - #u Ala Ile Ser Ala Ser
145                 1 - #50                 1 - #55                 1 -
#60
- - His Leu Ile Leu His Ile Asp Cys Asn Lys Il - #e Tyr Glu Arg Val
Val
165  - #               170  - #               175
- - Glu Lys Pro Ser Thr Asp Leu Pro Leu Gly Th - #r Thr Phe Trp Leu Gly
180      - #           185      - #           190
- - Gln Arg Asn Asn Ala His Gly Tyr Phe Lys Gl - #y Ile Met Gln Asp Val
195          - #       200          - #       205
- - Gln Leu Leu Val Met Pro Gln Gly Phe Ile Al - #a Gln Cys Pro Asp Leu
210              - #   215              - #   220
- - Asn Arg Thr Cys Pro Thr Cys Asn Asp Phe Hi - #s Gly Leu Val Gln Lys
225                 2 - #30                 2 - #35                 2 -
#40
- - Ile Met Glu Leu Gln Asp Ile Leu Ala Lys Th - #r Ser Ala Lys Leu
Ser
245  - #               250  - #               255
- - Arg Ala Glu Gln Arg Met Asn Arg Leu Asp Gl - #n Cys Tyr Cys Glu Arg
260      - #           265      - #           270
- - Thr Cys Thr Met Lys Gly Thr Thr Tyr Arg Gl - #u Phe Glu Ser Trp Ile
275          - #       280          - #       285
- - Asp Gly Cys Lys Asn Cys Thr Cys Leu Asn Gl - #y Thr Ile Gln Cys Glu
290              - #   295              - #   300
- - Thr Leu Ile Cys Pro Asn Pro Asp Cys Pro Le - #u Lys Ser Ala Leu Ala
305                 3 - #10                 3 - #15                 3 -
#20
- - Tyr Val Asp Gly Lys Cys Cys Lys Glu Cys Ly - #s Ser Ile Cys Gln
Phe
325  - #               330  - #               335
- - Gln Gly Arg Thr Tyr Phe Glu Gly Glu Arg As - #n Thr Val Tyr Ser Ser
340      - #           345      - #           350
- - Ser Gly Val Cys Val Leu Tyr Glu Cys Lys As - #p Gln Thr Met Lys Leu
355          - #       360          - #       365
- - Val Glu Ser Ser Gly Cys Pro Ala Leu Asp Cy - #s Pro Glu Ser His Gln
370              - #   375              - #   380
- - Ile Thr Leu Ser His Ser Cys Cys Lys Val Cy - #s Lys Gly Tyr Asp Phe
385                 3 - #90                 3 - #95                 4 -
#00
- - Cys Ser Glu Arg His Asn Cys Met Glu Asn Se - #r Ile Cys Arg Asn
Leu
405  - #               410  - #               415
- - Asn Asp Arg Ala Val Cys Ser Cys Arg Asp Gl - #y Phe Arg Ala Leu Arg
420      - #           425      - #           430
- - Glu Asp Asn Ala Tyr Cys Glu Asp Ile Asp Gl - #u Cys Ala Glu Gly Arg
435          - #       440          - #       445
- - His Tyr Cys Arg Glu Asn Thr Met Cys Val As - #n Thr Pro Gly Ser Phe
450              - #   455              - #   460
- - Met Cys Ile Cys Lys Thr Gly Tyr Ile Arg Il - #e Asp Asp Tyr Ser Cys
465                 4 - #70                 4 - #75                 4 -
#80
- - Thr Glu His Asp Glu Cys Ile Thr Asn Gln Hi - #s Asn Cys Asp Glu
Asn
485  - #               490  - #               495
- - Ala Leu Cys Phe Asn Thr Val Gly Gly His As - #n Cys Val Cys Lys Pro
500      - #           505      - #           510
- - Gly Tyr Thr Gly Asn Gly Thr Thr Cys Lys Al - #a Phe Cys Lys Asp Gly
515          - #       520          - #       525
- - Cys Arg Asn Gly Gly Ala Cys Ile Ala Ala As - #n Val Cys Ala Cys Pro
530              - #   535              - #   540
- - Gln Gly Phe Thr Gly Pro Ser Cys Glu Thr As - #p Ile Asp Glu Cys Ser
545                 5 - #50                 5 - #55                 5 -
#60
- - Asp Gly Phe Val Gln Cys Asp Ser Arg Ala As - #n Cys Ile Asn Leu
Pro
565  - #               570  - #               575
- - Gly Trp Tyr His Cys Glu Cys Arg Asp Gly Ty - #r His Asp Asn Gly Met
580      - #           585      - #           590
- - Phe Ser Pro Ser Gly Glu Ser Cys Glu Asp Il - #e Asp Glu Cys Gly Thr
595          - #       600          - #       605
- - Gly Arg His Ser Cys Ala Asn Asp Thr Ile Cy - #s Phe Asn Leu Asp Gly
610              - #   615              - #   620
- - Gly Tyr Asp Cys Arg Cys Pro His Gly Lys As - #n Cys Thr Gly Asp Cys
625                 6 - #30                 6 - #35                 6 -
#40
- - Ile His Asp Gly Lys Val Lys His Asn Gly Gl - #n Ile Trp Val Leu
Glu
645  - #               650  - #               655
- - Asn Asp Arg Cys Ser Val Cys Ser Cys Gln As - #n Gly Phe Val Met Cys
660      - #           665      - #           670
- - Arg Arg Met Val Cys Asp Cys Glu Asn Pro Th - #r Val Asp Leu Phe Cys
675          - #       680          - #       685
- - Cys Pro Glu Cys Asp Pro Arg Leu Ser Ser Gl - #n Cys Leu His Gln Asn
690              - #   695              - #   700
- - Gly Glu Thr Leu Tyr Asn Ser Gly Asp Thr Tr - #p Val Gln Asn Cys Gln
705                 7 - #10                 7 - #15                 7 -
#20
- - Gln Cys Arg Cys Leu Gln Gly Glu Val Asp Cy - #s Trp Pro Leu Pro
Cys
725  - #               730  - #               735
- - Pro Asp Val Glu Cys Glu Phe Ser Ile Leu Pr - #o Glu Asn Glu Cys Cys
740      - #           745      - #           750
- - Pro Arg Cys Val Thr Asp Pro Cys Gln Ala As - #p Thr Ile Arg Asn Asp
755          - #       760          - #       765
- - Ile Thr Lys Thr Cys Leu Asp Glu Met Asn Va - #l Val Arg Phe Thr Gly
770              - #   775              - #   780
- - Ser Ser Trp Ile Lys His Gly Thr Glu Cys Th - #r Leu Cys Gln Cys Lys
785                 7 - #90                 7 - #95                 8 -
#00
- - Asn Gly His Ile Cys Cys Ser Val Asp Pro Gl - #n Cys Leu Gln Glu
Leu
805  - #               810  - #               815
- -  - - <210> SEQ ID NO 38
<211> LENGTH: 2448
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 38
- - atggagtctc gggtcttact gagaacattc tgtttgatct tcggtctcgg ag -
#cagtttgg     60
- - gggcttggtg tggacccttc cctacagatt gacgtcttaa cagagttaga ac -
#ttggggag    120
- - tccacgaccg gagtgcgtca ggtcccgggg ctgcataatg ggacgaaagc ct -
#ttctcttt    180
- - caagatactc ccagaagcat aaaagcatcc actgctacag ctgaacagtt tt -
#ttcagaag    240
- - ctgagaaata aacatgaatt tactattttg gtgaccctaa aacagaccca ct -
#taaattca    300
- - ggagttattc tctcaattca ccacttggat cacaggtacc tggaactgga aa -
#gtagtggc    360
- - catcggaatg aagtcagact gcattaccgc tcaggcagtc accgccctca ca -
#cagaagtg    420
- - tttccttaca ttttggctga tgacaagtgg cacaagctct ccttagccat ca -
#gtgcttcc    480
- - catttgattt tacacattga ctgcaataaa atttatgaaa gggtagtaga aa -
#agccctcc    540
- - acagacttgc ctctaggcac aacattttgg ctaggacaga gaaataatgc gc -
#atggatat    600
- - tttaagggta taatgcaaga tgtccaatta cttgtcatgc cccagggatt ta -
#ttgctcag    660
- - tgcccagatc ttaatcgcac ctgtccaact tgcaatgact tccatggact tg -
#tgcagaaa    720
- - atcatggagc tacaggatat tttagccaaa acatcagcca agctgtctcg ag -
#ctgaacag    780
- - cgaatgaata gattggatca gtgctattgt gaaaggactt gcaccatgaa gg -
#gaaccacc    840
- - taccgagaat ttgagtcctg gatagacggc tgtaagaact gcacatgcct ga -
#atggaacc    900
- - atccagtgtg aaactctaat ctgcccaaat cctgactgcc cacttaagtc gg -
#ctcttgcg    960
- - tatgtggatg gcaaatgctg taaggaatgc aaatcgatat gccaatttca ag -
#gacgaacc   1020
- - tactttgaag gagaaagaaa tacagtctat tcctcttctg gagtatgtgt tc -
#tctatgag   1080
- - tgcaaggacc agaccatgaa acttgttgag agttcaggct gtccagcttt gg -
#attgtcca   1140
- - gagtctcatc agataacctt gtctcacagc tgttgcaaag tttgtaaagg tt -
#atgacttt   1200
- - tgttctgaaa ggcataactg catggagaat tccatctgca gaaatctgaa tg -
#acagggct   1260
- - gtttgtagct gtcgagatgg ttttagggct cttcgagagg ataatgccta ct -
#gtgaagac   1320
- - atcgatgagt gtgctgaagg gcgccattac tgtcgtgaaa atacaatgtg tg -
#tcaacacc   1380
- - ccgggttctt ttatgtgcat ctgcaaaact ggatacatca gaattgatga tt -
#attcatgt   1440
- - acagaacatg atgagtgtat cacaaatcag cacaactgtg atgaaaatgc tt -
#tatgcttc   1500
- - aacactgttg gaggacacaa ctgtgtttgc aagccgggct atacagggaa tg -
#gaacgaca   1560
- - tgcaaagcat tttgcaaaga tggctgtagg aatggaggag cctgtattgc cg -
#ctaatgtg   1620
- - tgtgcctgcc cacaaggctt cactggaccc agctgtgaaa cggacattga tg -
#aatgctct   1680
- - gatggttttg ttcaatgtga cagtcgtgct aattgcatta acctgcctgg at -
#ggtaccac   1740
- - tgtgagtgca gagatggcta ccatgacaat gggatgtttt caccaagtgg ag -
#aatcgtgt   1800
- - gaagatattg atgagtgtgg gaccgggagg cacagctgtg ccaatgatac ca -
#tttgcttc   1860
- - aatttggatg gcggatatga ttgtcgatgt cctcatggaa agaattgcac ag -
#gggactgc   1920
- - atccatgatg gaaaagttaa gcacaatggt cagatttggg tgttggaaaa tg -
#acaggtgc   1980
- - tctgtgtgct catgtcagaa tggattcgtt atgtgtcgac ggatggtctg tg -
#actgtgag   2040
- - aatcccacag ttgatctttt ttgctgccct gaatgtgacc caaggcttag ta -
#gtcagtgc   2100
- - ctccatcaaa atggggaaac tttgtataac agtggtgaca cctgggtcca ga -
#attgtcaa   2160
- - cagtgccgct gcttgcaagg ggaagttgat tgttggcccc tgccttgccc ag -
#atgtggag   2220
- - tgtgaattca gcattctccc agagaatgag tgctgcccgc gctgtgtcac ag -
#acccttgc   2280
- - caggctgaca ccatccgcaa tgacatcacc aagacttgcc tggacgaaat ga -
#atgtggtt   2340
- - cgcttcaccg ggtcctcttg gatcaaacat ggcactgagt gtactctctg cc -
#agtgcaag   2400
- - aatggccaca tctgttgctc agtggatcca cagtgccttc aggaactg  - #
2448
- -  - - <210> SEQ ID NO 39
<211> LENGTH: 3198
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (97)..(2544)
- - <400> SEQUENCE: 39
- - ttgggaggag cagtctctcc gctcgtctcc cggagctttc tccattgtct ct -
#gcctttac     60
- - aacagaggga gacgatggac tgagctgatc cgcacc atg gag tct - #cgg gtc tta
114
- #                  - #    Met Glu Ser Arg Val Leu
- #                  - #      1            - #   5
- - ctg aga aca ttc tgt ttg atc ttc ggt ctc gg - #a gca gtt tgg ggg ctt
162
Leu Arg Thr Phe Cys Leu Ile Phe Gly Leu Gl - #y Ala Val Trp Gly Leu
10     - #             15     - #             20
- - ggt gtg gac cct tcc cta cag att gac gtc tt - #a aca gag tta gaa ctt
210
Gly Val Asp Pro Ser Leu Gln Ile Asp Val Le - #u Thr Glu Leu Glu Leu
25         - #         30         - #         35
- - ggg gag tcc acg acc gga gtg cgt cag gtc cc - #g ggg ctg cat aat ggg
258
Gly Glu Ser Thr Thr Gly Val Arg Gln Val Pr - #o Gly Leu His Asn Gly
40             - #     45             - #     50
- - acg aaa gcc ttt ctc ttt caa gat act ccc ag - #a agc ata aaa gca tcc
306
Thr Lys Ala Phe Leu Phe Gln Asp Thr Pro Ar - #g Ser Ile Lys Ala Ser
55                 - # 60                 - # 65                 - # 70
- - act gct aca gct gaa cag ttt ttt cag aag ct - #g aga aat aaa cat gaa
354
Thr Ala Thr Ala Glu Gln Phe Phe Gln Lys Le - #u Arg Asn Lys His Glu
75 - #                 80 - #                 85
- - ttt act att ttg gtg acc cta aaa cag acc ca - #c tta aat tca gga gtt
402
Phe Thr Ile Leu Val Thr Leu Lys Gln Thr Hi - #s Leu Asn Ser Gly Val
90     - #             95     - #            100
- - att ctc tca att cac cac ttg gat cac agg ta - #c ctg gaa ctg gaa agt
450
Ile Leu Ser Ile His His Leu Asp His Arg Ty - #r Leu Glu Leu Glu Ser
105          - #       110          - #       115
- - agt ggc cat cgg aat gaa gtc aga ctg cat ta - #c cgc tca ggc agt cac
498
Ser Gly His Arg Asn Glu Val Arg Leu His Ty - #r Arg Ser Gly Ser His
120              - #   125              - #   130
- - cgc cct cac aca gaa gtg ttt cct tac att tt - #g gct gat gac aag tgg
546
Arg Pro His Thr Glu Val Phe Pro Tyr Ile Le - #u Ala Asp Asp Lys Trp
135                 1 - #40                 1 - #45                 1 -
#50
- - cac aag ctc tcc tta gcc atc agt gct tcc ca - #t ttg att tta cac
att      594
His Lys Leu Ser Leu Ala Ile Ser Ala Ser Hi - #s Leu Ile Leu His Ile
155  - #               160  - #               165
- - gac tgc aat aaa att tat gaa agg gta gta ga - #a aag ccc tcc aca gac
642
Asp Cys Asn Lys Ile Tyr Glu Arg Val Val Gl - #u Lys Pro Ser Thr Asp
170      - #           175      - #           180
- - ttg cct cta ggc aca aca ttt tgg cta gga ca - #g aga aat aat gcg cat
690
Leu Pro Leu Gly Thr Thr Phe Trp Leu Gly Gl - #n Arg Asn Asn Ala His
185          - #       190          - #       195
- - gga tat ttt aag ggt ata atg caa gat gtc ca - #a tta ctt gtc atg ccc
738
Gly Tyr Phe Lys Gly Ile Met Gln Asp Val Gl - #n Leu Leu Val Met Pro
200              - #   205              - #   210
- - cag gga ttt att gct cag tgc cca gat ctt aa - #t cgc acc tgt cca act
786
Gln Gly Phe Ile Ala Gln Cys Pro Asp Leu As - #n Arg Thr Cys Pro Thr
215                 2 - #20                 2 - #25                 2 -
#30
- - tgc aat gac ttc cat gga ctt gtg cag aaa at - #c atg gag cta cag
gat      834
Cys Asn Asp Phe His Gly Leu Val Gln Lys Il - #e Met Glu Leu Gln Asp
235  - #               240  - #               245
- - att tta gcc aaa aca tca gcc aag ctg tct cg - #a gct gaa cag cga atg
882
Ile Leu Ala Lys Thr Ser Ala Lys Leu Ser Ar - #g Ala Glu Gln Arg Met
250      - #           255      - #           260
- - aat aga ttg gat cag tgc tat tgt gaa agg ac - #t tgc acc atg aag gga
930
Asn Arg Leu Asp Gln Cys Tyr Cys Glu Arg Th - #r Cys Thr Met Lys Gly
265          - #       270          - #       275
- - acc acc tac cga gaa ttt gag tcc tgg ata ga - #c ggc tgt aag aac tgc
978
Thr Thr Tyr Arg Glu Phe Glu Ser Trp Ile As - #p Gly Cys Lys Asn Cys
280              - #   285              - #   290
- - aca tgc ctg aat gga acc atc cag tgt gaa ac - #t cta atc tgc cca aat
1026
Thr Cys Leu Asn Gly Thr Ile Gln Cys Glu Th - #r Leu Ile Cys Pro Asn
295                 3 - #00                 3 - #05                 3 -
#10
- - cct gac tgc cca ctt aag tcg gct ctt gcg ta - #t gtg gat ggc aaa
tgc     1074
Pro Asp Cys Pro Leu Lys Ser Ala Leu Ala Ty - #r Val Asp Gly Lys Cys
315  - #               320  - #               325
- - tgt aag gaa tgc aaa tcg ata tgc caa ttt ca - #a gga cga acc tac ttt
1122
Cys Lys Glu Cys Lys Ser Ile Cys Gln Phe Gl - #n Gly Arg Thr Tyr Phe
330      - #           335      - #           340
- - gaa gga gaa aga aat aca gtc tat tcc tct tc - #t gga gta tgt gtt ctc
1170
Glu Gly Glu Arg Asn Thr Val Tyr Ser Ser Se - #r Gly Val Cys Val Leu
345          - #       350          - #       355
- - tat gag tgc aag gac cag acc atg aaa ctt gt - #t gag agt tca ggc tgt
1218
Tyr Glu Cys Lys Asp Gln Thr Met Lys Leu Va - #l Glu Ser Ser Gly Cys
360              - #   365              - #   370
- - cca gct ttg gat tgt cca gag tct cat cag at - #a acc ttg tct cac agc
1266
Pro Ala Leu Asp Cys Pro Glu Ser His Gln Il - #e Thr Leu Ser His Ser
375                 3 - #80                 3 - #85                 3 -
#90
- - tgt tgc aaa gtt tgt aaa ggt tat gac ttt tg - #t tct gaa agg cat
aac     1314
Cys Cys Lys Val Cys Lys Gly Tyr Asp Phe Cy - #s Ser Glu Arg His Asn
395  - #               400  - #               405
- - tgc atg gag aat tcc atc tgc aga aat ctg aa - #t gac agg gct gtt tgt
1362
Cys Met Glu Asn Ser Ile Cys Arg Asn Leu As - #n Asp Arg Ala Val Cys
410      - #           415      - #           420
- - agc tgt cga gat ggt ttt agg gct ctt cga ga - #g gat aat gcc tac tgt
1410
Ser Cys Arg Asp Gly Phe Arg Ala Leu Arg Gl - #u Asp Asn Ala Tyr Cys
425          - #       430          - #       435
- - gaa gac atc gat gag tgt gct gaa ggg cgc ca - #t tac tgt cgt gaa aat
1458
Glu Asp Ile Asp Glu Cys Ala Glu Gly Arg Hi - #s Tyr Cys Arg Glu Asn
440              - #   445              - #   450
- - aca atg tgt gtc aac acc ccg ggt tct ttt at - #g tgc atc tgc aaa act
1506
Thr Met Cys Val Asn Thr Pro Gly Ser Phe Me - #t Cys Ile Cys Lys Thr
455                 4 - #60                 4 - #65                 4 -
#70
- - gga tac atc aga att gat gat tat tca tgt ac - #a gaa cat gat gag
tgt     1554
Gly Tyr Ile Arg Ile Asp Asp Tyr Ser Cys Th - #r Glu His Asp Glu Cys
475  - #               480  - #               485
- - atc aca aat cag cac aac tgt gat gaa aat gc - #t tta tgc ttc aac act
1602
Ile Thr Asn Gln His Asn Cys Asp Glu Asn Al - #a Leu Cys Phe Asn Thr
490      - #           495      - #           500
- - gtt gga gga cac aac tgt gtt tgc aag ccg gg - #c tat aca ggg aat gga
1650
Val Gly Gly His Asn Cys Val Cys Lys Pro Gl - #y Tyr Thr Gly Asn Gly
505          - #       510          - #       515
- - acg aca tgc aaa gca ttt tgc aaa gat ggc tg - #t agg aat gga gga gcc
1698
Thr Thr Cys Lys Ala Phe Cys Lys Asp Gly Cy - #s Arg Asn Gly Gly Ala
520              - #   525              - #   530
- - tgt att gcc gct aat gtg tgt gcc tgc cca ca - #a ggc ttc act gga ccc
1746
Cys Ile Ala Ala Asn Val Cys Ala Cys Pro Gl - #n Gly Phe Thr Gly Pro
535                 5 - #40                 5 - #45                 5 -
#50
- - agc tgt gaa acg gac att gat gaa tgc tct ga - #t ggt ttt gtt caa
tgt     1794
Ser Cys Glu Thr Asp Ile Asp Glu Cys Ser As - #p Gly Phe Val Gln Cys
555  - #               560  - #               565
- - gac agt cgt gct aat tgc att aac ctg cct gg - #a tgg tac cac tgt gag
1842
Asp Ser Arg Ala Asn Cys Ile Asn Leu Pro Gl - #y Trp Tyr His Cys Glu
570      - #           575      - #           580
- - tgc aga gat ggc tac cat gac aat ggg atg tt - #t tca cca agt gga gaa
1890
Cys Arg Asp Gly Tyr His Asp Asn Gly Met Ph - #e Ser Pro Ser Gly Glu
585          - #       590          - #       595
- - tcg tgt gaa gat att gat gag tgt ggg acc gg - #g agg cac agc tgt gcc
1938
Ser Cys Glu Asp Ile Asp Glu Cys Gly Thr Gl - #y Arg His Ser Cys Ala
600              - #   605              - #   610
- - aat gat acc att tgc ttc aat ttg gat ggc gg - #a tat gat tgt cga tgt
1986
Asn Asp Thr Ile Cys Phe Asn Leu Asp Gly Gl - #y Tyr Asp Cys Arg Cys
615                 6 - #20                 6 - #25                 6 -
#30
- - cct cat gga aag aat tgc aca ggg gac tgc at - #c cat gat gga aaa
gtt     2034
Pro His Gly Lys Asn Cys Thr Gly Asp Cys Il - #e His Asp Gly Lys Val
635  - #               640  - #               645
- - aag cac aat ggt cag att tgg gtg ttg gaa aa - #t gac agg tgc tct gtg
2082
Lys His Asn Gly Gln Ile Trp Val Leu Glu As - #n Asp Arg Cys Ser Val
650      - #           655      - #           660
- - tgc tca tgt cag aat gga ttc gtt atg tgt cg - #a cgg atg gtc tgt gac
2130
Cys Ser Cys Gln Asn Gly Phe Val Met Cys Ar - #g Arg Met Val Cys Asp
665          - #       670          - #       675
- - tgt gag aat ccc aca gtt gat ctt ttt tgc tg - #c cct gaa tgt gac cca
2178
Cys Glu Asn Pro Thr Val Asp Leu Phe Cys Cy - #s Pro Glu Cys Asp Pro
680              - #   685              - #   690
- - agg ctt agt agt cag tgc ctc cat caa aat gg - #g gaa act ttg tat aac
2226
Arg Leu Ser Ser Gln Cys Leu His Gln Asn Gl - #y Glu Thr Leu Tyr Asn
695                 7 - #00                 7 - #05                 7 -
#10
- - agt ggt gac acc tgg gtc cag aat tgt caa ca - #g tgc cgc tgc ttg
caa     2274
Ser Gly Asp Thr Trp Val Gln Asn Cys Gln Gl - #n Cys Arg Cys Leu Gln
715  - #               720  - #               725
- - ggg gaa gtt gat tgt tgg ccc ctg cct tgc cc - #a gat gtg gag tgt gaa
2322
Gly Glu Val Asp Cys Trp Pro Leu Pro Cys Pr - #o Asp Val Glu Cys Glu
730      - #           735      - #           740
- - ttc agc att ctc cca gag aat gag tgc tgc cc - #g cgc tgt gtc aca gac
2370
Phe Ser Ile Leu Pro Glu Asn Glu Cys Cys Pr - #o Arg Cys Val Thr Asp
745          - #       750          - #       755
- - cct tgc cag gct gac acc atc cgc aat gac at - #c acc aag act tgc ctg
2418
Pro Cys Gln Ala Asp Thr Ile Arg Asn Asp Il - #e Thr Lys Thr Cys Leu
760              - #   765              - #   770
- - gac gaa atg aat gtg gtt cgc ttc acc ggg tc - #c tct tgg atc aaa cat
2466
Asp Glu Met Asn Val Val Arg Phe Thr Gly Se - #r Ser Trp Ile Lys His
775                 7 - #80                 7 - #85                 7 -
#90
- - ggc act gag tgt act ctc tgc cag tgc aag aa - #t ggc cac atc tgt
tgc     2514
Gly Thr Glu Cys Thr Leu Cys Gln Cys Lys As - #n Gly His Ile Cys Cys
795  - #               800  - #               805
- - tca gtg gat cca cag tgc ctt cag gaa ctg tg - #aagttaac tgtctcatgg
2564
Ser Val Asp Pro Gln Cys Leu Gln Glu Leu
810      - #           815
- - gagatttctg ttaaaagaat gttctttcat taaaagacca aaaagaagtt aa -
#aacttaaa   2624
- - ttgggtgatt tgtgggcagc taaatgcagc tttgttaata gctgagtgaa ct -
#ttcaatta   2684
- - tgaaatttgt ggagcttgac aaaatcacaa aaggaaaatt actggggcaa aa -
#ttagacct   2744
- - caagtctgcc tctactgtgt ctcacatcac catgtagaag aatgggcgta ca -
#gtatatac   2804
- - cgtgacatcc tgaaccctgg atagaaagcc tgagcccatt ggatctgtga aa -
#gcctctag   2864
- - cttcactggt gcagaaaatt ttcctctaga tcagaatctt cagaatcagt ta -
#ggttcctc   2924
- - actgcaagaa ataaaatgtc aggcagtgaa tgaattatat tttcagaagt aa -
#agcaaaga   2984
- - agctataaca tgttatgtac agtacactct gaaaagaaat ctgaaacaag tt -
#attgtaat   3044
- - gataaaaata atgcacaggc atggttactt aatattttct aacaggaaaa gt -
#catcccta   3104
- - tttccttgtt ttactgcact taatattatt tggttgaatt tgttcagtat aa -
#gctcgttc   3164
- - ttgtgcaaaa ttaaataaat atttctctta cctt       - #                  -
#      3198
- -  - - <210> SEQ ID NO 40
<211> LENGTH: 499
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 40
- - Met Glu Leu Ser Glu Pro Val Val Glu Asn Gl - #y Glu Val Glu Met Ala
1               5 - #                 10 - #                 15
- - Leu Glu Glu Ser Trp Glu His Ser Lys Glu Va - #l Ser Glu Ala Glu Pro
20     - #             25     - #             30
- - Gly Gly Gly Ser Ser Gly Asp Ser Gly Pro Pr - #o Glu Glu Ser Gly Gln
35         - #         40         - #         45
- - Glu Met Met Glu Glu Lys Glu Glu Ile Arg Ly - #s Ser Lys Ser Val Ile
50             - #     55             - #     60
- - Val Pro Ser Gly Ala Pro Lys Lys Glu His Va - #l Asn Val Val Phe Ile
65                 - # 70                 - # 75                 - # 80
- - Gly His Val Asp Ala Gly Lys Ser Thr Ile Gl - #y Gly Gln Ile Met Phe
85 - #                 90 - #                 95
- - Leu Thr Gly Met Ala Asp Lys Arg Thr Leu Gl - #u Lys Tyr Glu Arg Glu
100      - #           105      - #           110
- - Ala Glu Glu Lys Asn Arg Glu Thr Trp Tyr Le - #u Ser Trp Ala Leu Asp
115          - #       120          - #       125
- - Thr Asn Gln Glu Glu Arg Asp Lys Gly Lys Th - #r Val Glu Val Gly Arg
130              - #   135              - #   140
- - Ala Tyr Phe Glu Thr Glu Arg Lys His Phe Th - #r Ile Leu Asp Ala Pro
145                 1 - #50                 1 - #55                 1 -
#60
- - Gly His Lys Ser Phe Val Pro Asn Met Ile Gl - #y Gly Ala Ser Gln
Ala
165  - #               170  - #               175
- - Asp Leu Ala Val Leu Val Ile Ser Ala Arg Ly - #s Gly Glu Phe Glu Thr
180      - #           185      - #           190
- - Gly Phe Glu Lys Gly Gly Gln Thr Arg Glu Hi - #s Ala Met Phe Gly Lys
195          - #       200          - #       205
- - Thr Ala Gly Val Lys His Leu Ile Val Leu Il - #e Asn Lys Met Asp Asp
210              - #   215              - #   220
- - Pro Thr Val Asn Trp Gly Ile Glu Arg Tyr Gl - #u Glu Cys Lys Glu Lys
225                 2 - #30                 2 - #35                 2 -
#40
- - Leu Val Pro Phe Leu Lys Lys Val Gly Phe Se - #r Pro Lys Lys Asp
Ile
245  - #               250  - #               255
- - His Phe Met Pro Cys Ser Gly Leu Thr Gly Al - #a Asn Ile Lys Glu Gln
260      - #           265      - #           270
- - Ser Asp Phe Cys Pro Trp Tyr Thr Gly Leu Pr - #o Phe Ile Pro Tyr Leu
275          - #       280          - #       285
- - Asn Asn Leu Pro Asn Phe Asn Arg Ser Ile As - #p Gly Pro Ile Arg Leu
290              - #   295              - #   300
- - Pro Ile Val Asp Lys Tyr Lys Asp Met Gly Th - #r Val Val Leu Gly Lys
305                 3 - #10                 3 - #15                 3 -
#20
- - Leu Glu Ser Gly Ser Ile Phe Lys Gly Gln Gl - #n Leu Val Met Met
Pro
325  - #               330  - #               335
- - Asn Lys His Asn Val Glu Val Leu Gly Ile Le - #u Ser Asp Asp Thr Glu
340      - #           345      - #           350
- - Thr Asp Phe Val Ala Pro Gly Glu Asn Leu Ly - #s Ile Arg Leu Lys Gly
355          - #       360          - #       365
- - Ile Glu Glu Glu Glu Ile Leu Pro Glu Phe Il - #e Leu Cys Asp Pro Ser
370              - #   375              - #   380
- - Asn Leu Cys His Ser Gly Arg Thr Phe Asp Va - #l Gln Ile Val Ile Ile
385                 3 - #90                 3 - #95                 4 -
#00
- - Glu His Lys Ser Ile Ile Cys Pro Gly Tyr As - #n Ala Val Leu His
Ile
405  - #               410  - #               415
- - His Thr Cys Ile Glu Glu Val Glu Ile Thr Al - #a Leu Ile Ser Leu Val
420      - #           425      - #           430
- - Asp Lys Lys Ser Gly Glu Lys Ser Lys Thr Ar - #g Pro Arg Phe Val Lys
435          - #       440          - #       445
- - Gln Asp Gln Val Cys Ile Ala Arg Leu Arg Th - #r Ala Gly Thr Ile Cys
450              - #   455              - #   460
- - Leu Glu Thr Phe Lys Asp Phe Pro Gln Met Gl - #y Arg Phe Thr Leu Arg
465                 4 - #70                 4 - #75                 4 -
#80
- - Asp Glu Gly Lys Thr Ile Ala Ile Gly Lys Va - #l Leu Lys Leu Val
Pro
485  - #               490  - #               495
- - Glu Lys Asp
- -  - - <210> SEQ ID NO 41
<211> LENGTH: 1497
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 41
- - atggaacttt cagaacctgt tgtagaaaat ggagaggtgg aaatggccct ag -
#aagaatca     60
- - tgggagcaca gtaaagaagt aagtgaagcc gagcctgggg gtggttcctc gg -
#gagattca    120
- - gggcccccag aagaaagtgg ccaggaaatg atggaggaaa aagaggaaat aa -
#gaaaatcc    180
- - aaatctgtga tcgtaccctc aggtgcacct aagaaagaac acgtaaatgt ag -
#tattcatt    240
- - ggccatgtag acgctggcaa gtcaaccatc ggaggacaga taatgttttt ga -
#ctggaatg    300
- - gctgacaaaa gaacactgga gaaatatgaa agagaagctg aggaaaaaaa ca -
#gagaaacc    360
- - tggtatttgt cctgggcctt agatacaaat caggaggaac gagacaaggg ta -
#aaacagtc    420
- - gaagtgggtc gtgcctattt tgaaacagaa aggaaacatt tcacaatttt ag -
#atgcccct    480
- - ggccacaaga gttttgtccc aaatatgatt ggtggtgctt ctcaagctga tt -
#tggctgtg    540
- - ctggtcatct ctgccaggaa aggagagttt gaaactggat ttgaaaaagg tg -
#gacagaca    600
- - agagaacatg cgatgtttgg caaaacggca ggagtaaaac atttaatagt gc -
#ttattaat    660
- - aagatggatg atcccacagt aaattggggc atcgagagat atgaagaatg ta -
#aagaaaaa    720
- - ctggtgccct ttttgaaaaa agtaggcttt agtccaaaaa aggacattca ct -
#ttatgccc    780
- - tgctcaggac tgaccggagc aaatattaaa gagcagtcag atttctgccc tt -
#ggtacact    840
- - ggattaccat ttattccgta tttgaataac ttgccaaact tcaacagatc aa -
#ttgatgga    900
- - ccaataagac tgccaattgt ggataagtac aaagatatgg gcactgtggt cc -
#tgggaaag    960
- - ctggaatccg ggtccatttt taaaggccag cagctcgtga tgatgccaaa ca -
#agcacaat   1020
- - gtagaagttc ttggaatact ttctgatgat actgaaactg attttgtagc cc -
#caggtgaa   1080
- - aacctcaaaa tcagactgaa gggaattgaa gaagaagaga ttcttccaga at -
#tcatactt   1140
- - tgtgatccta gtaacctctg ccattctgga cgcacgtttg atgttcagat ag -
#tgattatt   1200
- - gagcacaaat ccatcatctg cccaggttat aatgcggtgc tgcacattca ta -
#cttgtatt   1260
- - gaggaagttg agataacagc gttaatctcc ttggtagaca aaaaatcagg gg -
#aaaaaagt   1320
- - aagacacgac cccgcttcgt gaaacaagat caagtatgca ttgctcgttt aa -
#ggacagca   1380
- - ggaaccatct gcctcgagac gttcaaagat tttcctcaga tgggtcgttt ta -
#ctttaaga   1440
- - gatgagggta agaccattgc aattggaaaa gttctgaaat tggtcccaga ga - #aggac
1497
- -  - - <210> SEQ ID NO 42
<211> LENGTH: 2057
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
<220> FEATURE:
<221> NAME/KEY: CDS
<222> LOCATION: (144)..(1640)
- - <400> SEQUENCE: 42
- - tcccggccgg ctccggcagc aacgatgaag cctgcaccgg cgcgggatac cc -
#tcaaggta     60
- - aaaggatggg acggggggca cctgtggaac cttcccgaga ggaaccgtta gt -
#gtcgcttg    120
- - aaggttccaa ttcagccgtt acc atg gaa ctt tca gaa cc - #t gtt gta gaa
aat    173
- #        Met Glu Leu Ser Glu Pro - #Val Val Glu Asn
- #          1        - #       5           - #
10
- - gga gag gtg gaa atg gcc cta gaa gaa tca tg - #g gag cac agt aaa
gaa      221
Gly Glu Val Glu Met Ala Leu Glu Glu Ser Tr - #p Glu His Ser Lys Glu
15 - #                 20 - #                 25
- - gta agt gaa gcc gag cct ggg ggt ggt tcc tc - #g gga gat tca ggg ccc
269
Val Ser Glu Ala Glu Pro Gly Gly Gly Ser Se - #r Gly Asp Ser Gly Pro
30     - #             35     - #             40
- - cca gaa gaa agt ggc cag gaa atg atg gag ga - #a aaa gag gaa ata aga
317
Pro Glu Glu Ser Gly Gln Glu Met Met Glu Gl - #u Lys Glu Glu Ile Arg
45         - #         50         - #         55
- - aaa tcc aaa tct gtg atc gta ccc tca ggt gc - #a cct aag aaa gaa cac
365
Lys Ser Lys Ser Val Ile Val Pro Ser Gly Al - #a Pro Lys Lys Glu His
60             - #     65             - #     70
- - gta aat gta gta ttc att ggc cat gta gac gc - #t ggc aag tca acc atc
413
Val Asn Val Val Phe Ile Gly His Val Asp Al - #a Gly Lys Ser Thr Ile
75                 - # 80                 - # 85                 - # 90
- - gga gga cag ata atg ttt ttg act gga atg gc - #t gac aaa aga aca ctg
461
Gly Gly Gln Ile Met Phe Leu Thr Gly Met Al - #a Asp Lys Arg Thr Leu
95 - #                100 - #                105
- - gag aaa tat gaa aga gaa gct gag gaa aaa aa - #c aga gaa acc tgg tat
509
Glu Lys Tyr Glu Arg Glu Ala Glu Glu Lys As - #n Arg Glu Thr Trp Tyr
110      - #           115      - #           120
- - ttg tcc tgg gcc tta gat aca aat cag gag ga - #a cga gac aag ggt aaa
557
Leu Ser Trp Ala Leu Asp Thr Asn Gln Glu Gl - #u Arg Asp Lys Gly Lys
125          - #       130          - #       135
- - aca gtc gaa gtg ggt cgt gcc tat ttt gaa ac - #a gaa agg aaa cat ttc
605
Thr Val Glu Val Gly Arg Ala Tyr Phe Glu Th - #r Glu Arg Lys His Phe
140              - #   145              - #   150
- - aca att tta gat gcc cct ggc cac aag agt tt - #t gtc cca aat atg att
653
Thr Ile Leu Asp Ala Pro Gly His Lys Ser Ph - #e Val Pro Asn Met Ile
155                 1 - #60                 1 - #65                 1 -
#70
- - ggt ggt gct tct caa gct gat ttg gct gtg ct - #g gtc atc tct gcc
agg      701
Gly Gly Ala Ser Gln Ala Asp Leu Ala Val Le - #u Val Ile Ser Ala Arg
175  - #               180  - #               185
- - aaa gga gag ttt gaa act gga ttt gaa aaa gg - #t gga cag aca aga gaa
749
Lys Gly Glu Phe Glu Thr Gly Phe Glu Lys Gl - #y Gly Gln Thr Arg Glu
190      - #           195      - #           200
- - cat gcg atg ttt ggc aaa acg gca gga gta aa - #a cat tta ata gtg ctt
797
His Ala Met Phe Gly Lys Thr Ala Gly Val Ly - #s His Leu Ile Val Leu
205          - #       210          - #       215
- - att aat aag atg gat gat ccc aca gta aat tg - #g ggc atc gag aga tat
845
Ile Asn Lys Met Asp Asp Pro Thr Val Asn Tr - #p Gly Ile Glu Arg Tyr
220              - #   225              - #   230
- - gaa gaa tgt aaa gaa aaa ctg gtg ccc ttt tt - #g aaa aaa gta ggc ttt
893
Glu Glu Cys Lys Glu Lys Leu Val Pro Phe Le - #u Lys Lys Val Gly Phe
235                 2 - #40                 2 - #45                 2 -
#50
- - agt cca aaa aag gac att cac ttt atg ccc tg - #c tca gga ctg acc
gga      941
Ser Pro Lys Lys Asp Ile His Phe Met Pro Cy - #s Ser Gly Leu Thr Gly
255  - #               260  - #               265
- - gca aat att aaa gag cag tca gat ttc tgc cc - #t tgg tac act gga tta
989
Ala Asn Ile Lys Glu Gln Ser Asp Phe Cys Pr - #o Trp Tyr Thr Gly Leu
270      - #           275      - #           280
- - cca ttt att ccg tat ttg aat aac ttg cca aa - #c ttc aac aga tca att
1037
Pro Phe Ile Pro Tyr Leu Asn Asn Leu Pro As - #n Phe Asn Arg Ser Ile
285          - #       290          - #       295
- - gat gga cca ata aga ctg cca att gtg gat aa - #g tac aaa gat atg ggc
1085
Asp Gly Pro Ile Arg Leu Pro Ile Val Asp Ly - #s Tyr Lys Asp Met Gly
300              - #   305              - #   310
- - act gtg gtc ctg gga aag ctg gaa tcc ggg tc - #c att ttt aaa ggc cag
1133
Thr Val Val Leu Gly Lys Leu Glu Ser Gly Se - #r Ile Phe Lys Gly Gln
315                 3 - #20                 3 - #25                 3 -
#30
- - cag ctc gtg atg atg cca aac aag cac aat gt - #a gaa gtt ctt gga
ata     1181
Gln Leu Val Met Met Pro Asn Lys His Asn Va - #l Glu Val Leu Gly Ile
335  - #               340  - #               345
- - ctt tct gat gat act gaa act gat ttt gta gc - #c cca ggt gaa aac ctc
1229
Leu Ser Asp Asp Thr Glu Thr Asp Phe Val Al - #a Pro Gly Glu Asn Leu
350      - #           355      - #           360
- - aaa atc aga ctg aag gga att gaa gaa gaa ga - #g att ctt cca gaa ttc
1277
Lys Ile Arg Leu Lys Gly Ile Glu Glu Glu Gl - #u Ile Leu Pro Glu Phe
365          - #       370          - #       375
- - ata ctt tgt gat cct agt aac ctc tgc cat tc - #t gga cgc acg ttt gat
1325
Ile Leu Cys Asp Pro Ser Asn Leu Cys His Se - #r Gly Arg Thr Phe Asp
380              - #   385              - #   390
- - gtt cag ata gtg att att gag cac aaa tcc at - #c atc tgc cca ggt tat
1373
Val Gln Ile Val Ile Ile Glu His Lys Ser Il - #e Ile Cys Pro Gly Tyr
395                 4 - #00                 4 - #05                 4 -
#10
- - aat gcg gtg ctg cac att cat act tgt att ga - #g gaa gtt gag ata
aca     1421
Asn Ala Val Leu His Ile His Thr Cys Ile Gl - #u Glu Val Glu Ile Thr
415  - #               420  - #               425
- - gcg tta atc tcc ttg gta gac aaa aaa tca gg - #g gaa aaa agt aag aca
1469
Ala Leu Ile Ser Leu Val Asp Lys Lys Ser Gl - #y Glu Lys Ser Lys Thr
430      - #           435      - #           440
- - cga ccc cgc ttc gtg aaa caa gat caa gta tg - #c att gct cgt tta agg
1517
Arg Pro Arg Phe Val Lys Gln Asp Gln Val Cy - #s Ile Ala Arg Leu Arg
445          - #       450          - #       455
- - aca gca gga acc atc tgc ctc gag acg ttc aa - #a gat ttt cct cag atg
1565
Thr Ala Gly Thr Ile Cys Leu Glu Thr Phe Ly - #s Asp Phe Pro Gln Met
460              - #   465              - #   470
- - ggt cgt ttt act tta aga gat gag ggt aag ac - #c att gca att gga aaa
1613
Gly Arg Phe Thr Leu Arg Asp Glu Gly Lys Th - #r Ile Ala Ile Gly Lys
475                 4 - #80                 4 - #85                 4 -
#90
- - gtt ctg aaa ttg gtc cca gag aag gac taagcaatt - #t tcttgatgcc
1660
Val Leu Lys Leu Val Pro Glu Lys Asp
495
- - tctgcaagat actgtgagga gaattgacag caaaagttca ccacctactc tt -
#atttactg   1720
- - cccattgatt gacttttctt catattttgc aaagagaaat ttcacagcaa aa -
#attcatgt   1780
- - tttgtcagct ttctcatgtt gagatctgtt atgtcactga tgaatttacc ct -
#caagtttc   1840
- - cttcctctgt accactctgc ttccttggac aatatcagta atagctttgt aa -
#gtgatgtg   1900
- - gacgtaattg cctacagtaa taaaaaaata atgtacttta atttttcatt tt -
#cttttagg   1960
- - atatttagac cacccttgtt ccacgcaaac cagagtgtgt cagtgtttgt gt -
#gtgtgtta   2020
- - aaatgataac taacatgtga ataaaatact ccatttg      - #
- #    2057
- -  - - <210> SEQ ID NO 43
<211> LENGTH: 24
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer
P1
- - <400> SEQUENCE: 43
- - acaccaatcc agtagccagg cttg          - #                  - #
24
- -  - - <210> SEQ ID NO 44
<211> LENGTH: 34
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer
P2
- - <400> SEQUENCE: 44
- - cactcgagaa tctgtgagac ctacatacat gacg       - #                  -
#        34
- -  - - <210> SEQ ID NO 45
<211> LENGTH: 21
<212> TYPE: PRT
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: consensus
sequence
<220> FEATURE:
<223> OTHER INFORMATION: all "Xaa" amino aci - #ds are unidentified
- - <400> SEQUENCE: 45
- - Cys Xaa Glu Cys Gly Lys Ala Phe Xaa Gln Ly - #s Ser Xaa Leu Xaa Xaa
1               5 - #                 10 - #                 15
- - His Gln Arg Xaa His
20
- -  - - <210> SEQ ID NO 46
<211> LENGTH: 7
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 46
- - Val Leu Asn Ile Ser Leu Trp
1               5
- -  - - <210> SEQ ID NO 47
<211> LENGTH: 17
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 47
- - Thr Leu Met Glu Leu Leu Asn Gln Met Asp Gl - #y Phe Asp Thr Leu His
1               5 - #                 10 - #                 15
- - Arg
- -  - - <210> SEQ ID NO 48
<211> LENGTH: 14
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
<220> FEATURE:
<223> OTHER INFORMATION: all "Xaa" amino aci - #ds are unidentified
- - <400> SEQUENCE: 48
- - Ala Val Ser Asp Phe Val Val Ser Glu Tyr Xa - #a Met Xaa Ala
1               5 - #                 10
- -  - - <210> SEQ ID NO 49
<211> LENGTH: 9
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
<220> FEATURE:
<223> OTHER INFORMATION: all "Xaa" amino aci - #ds are unidentified
- - <400> SEQUENCE: 49
- - Glu Val Asp Pro Leu Val Tyr Asn Xaa
1               5
- -  - - <210> SEQ ID NO 50
<211> LENGTH: 11
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 50
- - His Gly Glu Ile Asp Tyr Glu Ala Ile Val Ly - #s
1               5 - #                 10
- -  - - <210> SEQ ID NO 51
<211> LENGTH: 25
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
<220> FEATURE:
<223> OTHER INFORMATION: all "Xaa" amino aci - #ds are unidentified
- - <400> SEQUENCE: 51
- - Leu Ser Xaa Gly Phe Asn Gly Ala Asp Leu Ar - #g Asn Val Xaa Thr Glu
1               5 - #                 10 - #                 15
- - Ala Gly Met Phe Ala Ile Xaa Ala Asp
20     - #             25
- -  - - <210> SEQ ID NO 52
<211> LENGTH: 21
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
<220> FEATURE:
<223> OTHER INFORMATION: all "Xaa" amino aci - #ds are unidentified
- - <400> SEQUENCE: 52
- - Met Ile Met Ala Thr Asn Arg Pro Asp Thr Le - #u Asp Pro Ala Leu Leu
1               5 - #                 10 - #                 15
- - Arg Pro Gly Xaa Leu
20
- -  - - <210> SEQ ID NO 53
<211> LENGTH: 16
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 53
- - Ile His Ile Asp Leu Pro Asn Glu Gln Ala Ar - #g Leu Asp Ile Leu Lys
1               5 - #                 10 - #                 15
- -  - - <210> SEQ ID NO 54
<211> LENGTH: 11
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 54
- - Ala Thr Asn Gly Pro Arg Tyr Val Val Val Gl - #y
1               5 - #                 10
- -  - - <210> SEQ ID NO 55
<211> LENGTH: 7
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 55
- - Glu Ile Asp Gly Arg Leu Lys
1               5
- -  - - <210> SEQ ID NO 56
<211> LENGTH: 14
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 56
- - Ala Leu Gln Ser Val Gly Gln Ile Val Gly Gl - #u Val Leu Lys
1               5 - #                 10
- -  - - <210> SEQ ID NO 57
<211> LENGTH: 8
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 57
- - Ile Leu Ala Gly Pro Ile Thr Lys
1               5
- -  - - <210> SEQ ID NO 58
<211> LENGTH: 16
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
<220> FEATURE:
<223> OTHER INFORMATION: all "Xaa" amino aci - #ds are unidentified
- - <400> SEQUENCE: 58
- - Xaa Xaa Val Ile Glu Leu Pro Leu Thr Asn Pr - #o Glu Leu Phe Gln Gly
1               5 - #                 10 - #                 15
- -  - - <210> SEQ ID NO 59
<211> LENGTH: 9
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 59
- - Val Val Ser Ser Ser Leu Val Asp Lys
1               5
- -  - - <210> SEQ ID NO 60
<211> LENGTH: 7
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 60
- - Ala Leu Gln Asp Tyr Arg Lys
1               5
- -  - - <210> SEQ ID NO 61
<211> LENGTH: 7
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 61
- - Glu His Arg Glu Gln Leu Lys
1               5
- -  - - <210> SEQ ID NO 62
<211> LENGTH: 12
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 62
- - Lys Leu Glu Ser Lys Leu Asp Tyr Lys Pro Va - #l Arg
1               5 - #                 10
- -  - - <210> SEQ ID NO 63
<211> LENGTH: 5
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 63
- - Leu Val Pro Thr Arg
1               5
- -  - - <210> SEQ ID NO 64
<211> LENGTH: 11
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 64
- - Ala Lys Glu Glu Glu Ile Glu Ala Gln Ile Ly - #s
1               5 - #                 10
- -  - - <210> SEQ ID NO 65
<211> LENGTH: 10
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 65
- - Ala Asn Tyr Glu Val Leu Glu Ser Gln Lys
1               5 - #                 10
- -  - - <210> SEQ ID NO 66
<211> LENGTH: 11
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 66
- - Val Glu Asp Ala Leu His Gln Leu His Ala Ar - #g
1               5 - #                 10
- -  - - <210> SEQ ID NO 67
<211> LENGTH: 8
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 67
- - Asp Val Asp Leu Tyr Gln Val Arg
1               5
- -  - - <210> SEQ ID NO 68
<211> LENGTH: 13
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 68
- - Gln Ser Gln Gly Leu Ser Pro Ala Gln Ala Ph - #e Ala Lys
1               5 - #                 10
- -  - - <210> SEQ ID NO 69
<211> LENGTH: 21
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
- - <400> SEQUENCE: 69
- - Ala Gly Ser Gln Ser Gly Gly Ser Pro Glu Al - #a Ser Gly Val Thr Val
1               5 - #                 10 - #                 15
- - Ser Asp Val Gln Glu
20
- -  - - <210> SEQ ID NO 70
<211> LENGTH: 12
<212> TYPE: PRT
<213> ORGANISM: Bovine sp.
<220> FEATURE:
<223> OTHER INFORMATION: all "Xaa" amino aci - #ds are unidentified
- - <400> SEQUENCE: 70
- - Gly Leu Leu Gly Xaa Asn Ile Ile Pro Leu Gl - #n Arg
1               5 - #                 10
- -  - - <210> SEQ ID NO 71
<211> LENGTH: 26
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer
P1
- - <400> SEQUENCE: 71
- - ttgaagaatg atgcattagg aaccac          - #                  - #
26
- -  - - <210> SEQ ID NO 72
<211> LENGTH: 34
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer
P2
- - <400> SEQUENCE: 72
- - cactcgagtg gctggatttc aatttctcca gtag       - #                  -
#        34
- -  - - <210> SEQ ID NO 73
<211> LENGTH: 24
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer
P3
- - <400> SEQUENCE: 73
- - gtcgagctag ccatctcctc ttcg          - #                  - #
24
- -  - - <210> SEQ ID NO 74
<211> LENGTH: 23
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer
P4
- - <400> SEQUENCE: 74
- - catgggcgac aggttccgag acc           - #                  - #
23
- -  - - <210> SEQ ID NO 75
<211> LENGTH: 9
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 75
- - Lys Gly Ile Pro Ser Phe Trp Leu Thr
1               5
- -  - - <210> SEQ ID NO 76
<211> LENGTH: 9
<212> TYPE: PRT
<213> ORGANISM: Saccharomyces sp.
- - <400> SEQUENCE: 76
- - Lys Gly Ile Pro Glu Phe Trp Leu Thr
1               5
- -  - - <210> SEQ ID NO 77
<211> LENGTH: 10
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 77
- - Asp Ser Phe Phe Asn Phe Phe Ala Pro Pro
1               5 - #                 10
- -  - - <210> SEQ ID NO 78
<211> LENGTH: 9
<212> TYPE: PRT
<213> ORGANISM: Saccharomyces sp.
- - <400> SEQUENCE: 78
- - Glu Ser Phe Phe Asn Phe Phe Ser Pro
1               5
- -  - - <210> SEQ ID NO 79
<211> LENGTH: 14
<212> TYPE: PRT
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: consensus
sequence
<220> FEATURE:
<223> OTHER INFORMATION: all "Xaa" amino aci - #ds are unidentified
- - <400> SEQUENCE: 79
- - Glu Xaa Xaa Lys Glu Xaa Pro Glu Val Lys Xa - #a Glu Glu Lys
1               5 - #                 10
- -  - - <210> SEQ ID NO 80
<211> LENGTH: 5
<212> TYPE: PRT
<213> ORGANISM: HIV-1
- - <400> SEQUENCE: 80
- - Gly Arg Lys Lys Arg
1               5
- -  - - <210> SEQ ID NO 81
<211> LENGTH: 5
<212> TYPE: PRT
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 81
- - Lys Lys Lys Arg Lys
1               5
- -  - - <210> SEQ ID NO 82
<211> LENGTH: 25
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: A1
Primer
- - <400> SEQUENCE: 82
- - cctaaaaagt gtctaagtgc cagtt          - #                  - #
25
- -  - - <210> SEQ ID NO 83
<211> LENGTH: 24
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: A2
Primer
- - <400> SEQUENCE: 83
- - tcagtgaaag ggaaggtaga acac          - #                  - #
24
- -  - - <210> SEQ ID NO 84
<211> LENGTH: 26
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: P1
Primer
- - <400> SEQUENCE: 84
- - taatgaattt cattttagga ggtcgg          - #                  - #
26
- -  - - <210> SEQ ID NO 85
<211> LENGTH: 25
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: P2
Primer
- - <400> SEQUENCE: 85
- - atcttttggg aaagtaagat gagcc          - #                  - #
25
- -  - - <210> SEQ ID NO 86
<211> LENGTH: 21
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: C1
Primer
- - <400> SEQUENCE: 86
- - ggagactcac ctgctaatgt t           - #                  - #
- #21
- -  - - <210> SEQ ID NO 87
<211> LENGTH: 20
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: C4
Primer
- - <400> SEQUENCE: 87
- - ctcaaaagca gtctcttggc            - #                  - #
- # 20
- -  - - <210> SEQ ID NO 88
<211> LENGTH: 22
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer A
- - <400> SEQUENCE: 88
- - atgggagata cagtagtgga gc           - #                  - #
22
- -  - - <210> SEQ ID NO 89
<211> LENGTH: 21
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer B
- - <400> SEQUENCE: 89
- - tcacatgatg ccgttggtga g           - #                  - #
- #21
- -  - - <210> SEQ ID NO 90
<211> LENGTH: 51
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 90
- - tggatcaagc caatacaaga ttcttgtgaa attacgactg atagtggcat g - #
51
- -  - - <210> SEQ ID NO 91
<211> LENGTH: 117
<212> TYPE: DNA
<213> ORGANISM: Homo sapiens
- - <400> SEQUENCE: 91
- - tccatttggg aacaggagcg agtgcccctt tggatcaagc catacaagat tc -
#ttgtgatt     60
- - tcggctgata gtggcatgat tgaaccagtg gtcaatgctg tgtccatcca tc - #aggtg
117
- -  - - <210> SEQ ID NO 92
<211> LENGTH: 31
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer
C1
- - <400> SEQUENCE: 92
- - ctcagatcta tgggagatac agtagtggag c        - #                  - #
31
- -  - - <210> SEQ ID NO 93
<211> LENGTH: 30
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: Primer
C2
- - <400> SEQUENCE: 93
- - tcgagatctt cacatgatgc cgttggtgag         - #                  - #
30
- -  - - <210> SEQ ID NO 94
<211> LENGTH: 28
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: P1
Primer
- - <400> SEQUENCE: 94
- - gatttgtgct caataatcac tatctgaa         - #                  - #
28
- -  - - <210> SEQ ID NO 95
<211> LENGTH: 33
<212> TYPE: DNA
<213> ORGANISM: Artificial Sequence
<220> FEATURE:
<223> OTHER INFORMATION: Description of Artificial - #Sequence: P2
Primer
- - <400> SEQUENCE: 95
- - ggttactagg atcacaaagt atgaattctg gaa       - #                  -
#         33
__________________________________________________________________________

Claims

1. An isolated nucleic acid molecule encoding human skeletal muscle-specific ubiquitin-conjugating enzyme comprising a nucleotide sequence coding for the amino acid sequence shown in SEQ ID NO:22.

2. The nucleic acid molecule as defined in claim 1, wherein said nucleic acid molecule comprises the nucleotide sequence shown in SEQ ID NO:23.

3. The nucleic acid molecule as defined in claim 2, wherein said nucleic acid molecule comprises the nucleotide sequence shown in SEQ ID NO:24.